- published: 17 Mar 2015
- views: 52605
Create your page here
Saturday, 16 December 2017
-
remove the playlistContinuous Liquid Interface Production
-
remove the playlistLongest Videos
- remove the playlistContinuous Liquid Interface Production
- remove the playlistLongest Videos
back to playlist
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
- published: 17 Mar 2015
- views: 669698
Additive Manufacturing - Continuous Liquid Interface Production (CLIP) Technology:
------------------------------------------------------------------
In this technique, instead of printing an object layer-by-layer, which leads to incredibly slow speeds as well as a weak overall structure similar to that of shale, this new process harnesses light as a way to cure the resin, and oxygen as an inhibiting agent. The continuous process begins with a pool of liquid photopolymer resin. Part of the pool bottom is transparent to ultraviolet light and oxygen(the window). An ultraviolet light beam shines through the window, illuminating the precise cross-section of the object. The light causes the resin to solidify. The object rises slowly enough to allow resin to flow under and maintain contact with the bottom of the object. An oxygen-permeable membrane lies below the resin, which creates a “dead zone” (persistent liquid interface) preventing the resin from attaching to the window (photopolymerization is inhibited between the window and the polymerizer). The machine will then produce a series of cross sectional images using ultraviolet light in a fashion similar to playing a movie. By bringing oxygen into the equation, a traditionally mechanical technique for 3D printing suddenly becomes a tunable photochemical process which rapidly decreases production times (25 to 100 times), removes the layering effect.
Eng. Rami Khalil
- published: 08 Nov 2015
- views: 2710
What we think of as 3D printing, says Joseph DeSimone, is really just 2D printing over and over ... slowly. Onstage at TED2015, he unveils a bold new technique — inspired, yes, by Terminator 2 — that's 25 to 100 times faster, and creates smooth, strong parts. Could it finally help to fulfill the tremendous promise of 3D printing?
TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more.
Find closed captions and translated subtitles in many languages at http://www.ted.com/translate
Follow TED news on Twitter: http://www.twitter.com/tednews
Like TED on Facebook: https://www.facebook.com/TED
Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector
- published: 19 Mar 2015
- views: 869258
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
- published: 17 Mar 2015
- views: 1591062
Continuous Liquid Interface Production is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish. Parts printed with CLIP are much more like injection-molded parts.
See other 3D printing processes on our playlist:
https://www.youtube.com/playlist?list=PLxG8gV7GMn-hr7gGTpgvSXqhrA1dTjeTG
Subscribe on YouTube: https://www.youtube.com/channel/UCkLki-J9W9LJQlZzfHT7sAw
Visit our website: www.onelevelstudios.com
Facebook: www.facebook.com/onelevelstudios
Instagram: www.instagram.com/onelevelstudios
Twitter: www.twitter.com/onelevelstudios
- published: 26 Jun 2017
- views: 62
Breaking news! CLIP is a new technology that allows 3D printing to take place at a far greater pace than current technologies.
But will it be 3D printings 'magic bullet' into mass production?
Here are my thoughts!
Don't forget to subscribe so you don't miss any future 3D Printing Reviews, Tutorials or Projects!
---
Like what we do?
Visit us at makersmuse.com for more information about Makers Muse!
Say G'day to us on Twitter and Instagram @makersmuse
Ways you can support Maker's Muse:
-Want to buy a 3D Printer but don't know where to start? Get our eBook here!
https://gumroad.com/products/NBvg/
- Support us on Patreon
https://www.patreon.com/makersmuse?ty=h
-Buy a T-shirt!
http://www.redbubble.com/people/maker...
- By using our amazon affiliate links
US - http://amzn.to/1Ym50j1
UK - http://amzn.to/1PJICdR
Or a direct donation through Youtube
And lastly, a BIG thanks to the community, and those who have supported us here at Makers Muse!
----
- published: 21 Mar 2015
- views: 14058
This demo video illustrates four sterilizable stylette handles printing continuously in our high-performance CE resin. Created for use with surgical tools, this handle can be sterilized in an autoclave. Its internal rib structure provides excellent strength-to-weight ratio.
This demo video was sped up to illustrate the process. The build height for this print is 104 mm. It took 3h 12min to print.
- published: 02 Apr 2016
- views: 48361
Diego Castanon is part of the NewPro3D team. Their printer is CLIP's biggest (and fastest) competitor.
According to Diego, it prints the same sphere as the Carbon3D (6.5 minutes) in 4.3 minutes. It works without oxygen permeable glass so there is essentially no size limitation and it's non-dependent on specific resins. It utilizes a provisional patent which is described as a "dead-zone" to replace the glass layer.
The build from CES uses what appears to be an off-the-shelf projector, but SLA would also be an option. Next, they are working on metal 3D printer which he claims will be twice as fast (as other metal printers?).
We are certainly excited to see where this technology goes in the next year!
Don't forget to follow Fargo 3D Printing for further updates.
https://www.facebook.com/fargo3dprinting
https://twitter.com/Fargo3DPrinting
http://www.pinterest.com/fargo3dprinting/
- published: 10 Feb 2016
- views: 161675
developed with YouTube
Continuous Liquid Interface Production
Continuous Liquid Interface Production (CLIP) is a form of additive manufacturing that uses photo polymerization to create smooth-sided solid objects of a wide variety of shapes.
Process
The continuous process begins with a pool of liquid photopolymer resin. Part of the pool bottom is transparent to ultraviolet light (the "window"). An ultraviolet light beam shines through the window, illuminating the precise cross-section of the object. The light causes the resin to solidify. The object rises slowly enough to allow resin to flow under and maintain contact with the bottom of the object. An oxygen-permeable membrane lies below the resin, which creates a “dead zone” (persistent liquid interface) preventing the resin from attaching to the window (photopolymerization is inhibited between the window and the polymerizer).
Unlike stereolithography, the printing process is continuous. The inventors claim that it can create objects up to 100 times faster than commercial three dimensional (3D) printing methods.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Continuous_Liquid_Interface_Production
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
3D printing
3D printing, also known as additive manufacturing (AM), refers to various processes used to synthesize a three-dimensional object. In 3D printing, successive layers of material are formed under computer control to create an object. These objects can be of almost any shape or geometry and are produced from a 3D model or other electronic data source. A 3D printer is a type of industrial robot.
Futurologists such as Jeremy Rifkin believe that 3D printing signals the beginning of a third industrial revolution, succeeding the production line assembly that dominated manufacturing starting in the late 19th century. Using the power of the Internet, it may eventually be possible to send a blueprint of any product to any place in the world to be replicated by a 3D printer with "elemental inks" capable of being combined into any material substance of any desired form.
3D printing in the term's original sense refers to processes that sequentially deposit material onto a powder bed with inkjet printer heads. More recently, the meaning of the term has expanded to encompass a wider variety of techniques such as extrusion and sintering-based processes. Technical standards generally use the term additive manufacturing for this broader sense.
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/3D_printing
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Interface
Interface may refer to:
Academic journals
Computing
Science
Other uses
See also
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Interface
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Production
Production may be: Film In Economics:
In Ecology:
In Entertainment:
In Abstract systems:
See also
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Production
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
Continuity
Continuity or continuous may refer to:
Mathematics
- Continuous probability distribution or random variable in probability and statistics
- Continuous game, a generalization of games used in game theory
- Law of Continuity, a heuristic principle of Gottfried Leibniz
- Continuity (topology), a generalization to functions between topological spaces
- Scott continuity, for functions between posets
- Continuity (set theory), for functions between ordinals
- Continuity (category theory), for functors
- Graph continuity, for payoff functions in game theory
This page contains text from Wikipedia, the Free Encyclopedia -
https://wn.com/Continuity
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
- Loading...
-
1:14Carbon CLIP Animation
Carbon CLIP AnimationCarbon CLIP Animation
-
1:00Carbon3D CLIP technology demo 7X speed
Carbon3D CLIP technology demo 7X speedCarbon3D CLIP technology demo 7X speed
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/ -
1:27Additive Manufacturing - Continuous Liquid Interface Production CLIP Technology
Additive Manufacturing - Continuous Liquid Interface Production CLIP TechnologyAdditive Manufacturing - Continuous Liquid Interface Production CLIP Technology
Additive Manufacturing - Continuous Liquid Interface Production (CLIP) Technology: ------------------------------------------------------------------ In this technique, instead of printing an object layer-by-layer, which leads to incredibly slow speeds as well as a weak overall structure similar to that of shale, this new process harnesses light as a way to cure the resin, and oxygen as an inhibiting agent. The continuous process begins with a pool of liquid photopolymer resin. Part of the pool bottom is transparent to ultraviolet light and oxygen(the window). An ultraviolet light beam shines through the window, illuminating the precise cross-section of the object. The light causes the resin to solidify. The object rises slowly enough to allow resin to flow under and maintain contact with the bottom of the object. An oxygen-permeable membrane lies below the resin, which creates a “dead zone” (persistent liquid interface) preventing the resin from attaching to the window (photopolymerization is inhibited between the window and the polymerizer). The machine will then produce a series of cross sectional images using ultraviolet light in a fashion similar to playing a movie. By bringing oxygen into the equation, a traditionally mechanical technique for 3D printing suddenly becomes a tunable photochemical process which rapidly decreases production times (25 to 100 times), removes the layering effect. Eng. Rami Khalil -
10:47What if 3D printing was 100x faster? | Joseph DeSimone
What if 3D printing was 100x faster? | Joseph DeSimoneWhat if 3D printing was 100x faster? | Joseph DeSimone
What we think of as 3D printing, says Joseph DeSimone, is really just 2D printing over and over ... slowly. Onstage at TED2015, he unveils a bold new technique — inspired, yes, by Terminator 2 — that's 25 to 100 times faster, and creates smooth, strong parts. Could it finally help to fulfill the tremendous promise of 3D printing? TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more. Find closed captions and translated subtitles in many languages at http://www.ted.com/translate Follow TED news on Twitter: http://www.twitter.com/tednews Like TED on Facebook: https://www.facebook.com/TED Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector -
0:46Carbon3D's Super Fast 3D Printer Printing an Eiffel Tower
Carbon3D's Super Fast 3D Printer Printing an Eiffel TowerCarbon3D's Super Fast 3D Printer Printing an Eiffel Tower
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/ -
1:003D printing technology ( continuous liquid interface production) - clip
3D printing technology ( continuous liquid interface production) - clip3D printing technology ( continuous liquid interface production) - clip
-
0:44What Is Continuous Liquid Interface Production (CLIP) 3D Printing?
What Is Continuous Liquid Interface Production (CLIP) 3D Printing?What Is Continuous Liquid Interface Production (CLIP) 3D Printing?
Continuous Liquid Interface Production is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish. Parts printed with CLIP are much more like injection-molded parts. See other 3D printing processes on our playlist: https://www.youtube.com/playlist?list=PLxG8gV7GMn-hr7gGTpgvSXqhrA1dTjeTG Subscribe on YouTube: https://www.youtube.com/channel/UCkLki-J9W9LJQlZzfHT7sAw Visit our website: www.onelevelstudios.com Facebook: www.facebook.com/onelevelstudios Instagram: www.instagram.com/onelevelstudios Twitter: www.twitter.com/onelevelstudios -
3:00Continuous liquid interface production of 3D Objects Parte 1
Continuous liquid interface production of 3D Objects Parte 1Continuous liquid interface production of 3D Objects Parte 1
-
3:35New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015
New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015
Breaking news! CLIP is a new technology that allows 3D printing to take place at a far greater pace than current technologies. But will it be 3D printings 'magic bullet' into mass production? Here are my thoughts! Don't forget to subscribe so you don't miss any future 3D Printing Reviews, Tutorials or Projects! --- Like what we do? Visit us at makersmuse.com for more information about Makers Muse! Say G'day to us on Twitter and Instagram @makersmuse Ways you can support Maker's Muse: -Want to buy a 3D Printer but don't know where to start? Get our eBook here! https://gumroad.com/products/NBvg/ - Support us on Patreon https://www.patreon.com/makersmuse?ty=h -Buy a T-shirt! http://www.redbubble.com/people/maker... - By using our amazon affiliate links US - http://amzn.to/1Ym50j1 UK - http://amzn.to/1PJICdR Or a direct donation through Youtube And lastly, a BIG thanks to the community, and those who have supported us here at Makers Muse! ---- -
2:57Additive Manufacturing at BMW Group
Additive Manufacturing at BMW Group -
0:56Carbon M1 printer demo—High temp CE resin
Carbon M1 printer demo—High temp CE resinCarbon M1 printer demo—High temp CE resin
This demo video illustrates four sterilizable stylette handles printing continuously in our high-performance CE resin. Created for use with surgical tools, this handle can be sterilized in an autoclave. Its internal rib structure provides excellent strength-to-weight ratio. This demo video was sped up to illustrate the process. The build height for this print is 104 mm. It took 3h 12min to print. -
8:00NewPro3D (World's Fastest?) at CES 2016
NewPro3D (World's Fastest?) at CES 2016NewPro3D (World's Fastest?) at CES 2016
Diego Castanon is part of the NewPro3D team. Their printer is CLIP's biggest (and fastest) competitor. According to Diego, it prints the same sphere as the Carbon3D (6.5 minutes) in 4.3 minutes. It works without oxygen permeable glass so there is essentially no size limitation and it's non-dependent on specific resins. It utilizes a provisional patent which is described as a "dead-zone" to replace the glass layer. The build from CES uses what appears to be an off-the-shelf projector, but SLA would also be an option. Next, they are working on metal 3D printer which he claims will be twice as fast (as other metal printers?). We are certainly excited to see where this technology goes in the next year! Don't forget to follow Fargo 3D Printing for further updates. https://www.facebook.com/fargo3dprinting https://twitter.com/Fargo3DPrinting http://www.pinterest.com/fargo3dprinting/ -
2:18World's Fastest 3D Printer | Carbon M1 | CA
World's Fastest 3D Printer | Carbon M1 | CAWorld's Fastest 3D Printer | Carbon M1 | CA
CARBON M1 | World's Fastest 3D Printer Traditional approaches to additive manufacturing make trade-offs between surface finish and mechanical properties. Despite industry advances, no process delivers the combination of the two needed for end-use parts. CLIP – Continuous Liquid Interface Production – is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish. Benefits: Isotropic parts with exceptional surface finish Conventional 3D printed materials often exhibit variable strength and mechanical properties depending on the direction in which they were printed. CLIP parts behave consistently in all directions. The resolution and gentleness of our process — where parts aren’t harshly repositioned with every slice — make it possible to exploit a range of materials that have the surface finish and detail needed for end-use parts. CLIP shapes the part CLIP is a photochemical process that carefully balances light and oxygen to rapidly produce parts. It works by projecting light through an oxygen-permeable window into a reservoir of UV-curable resin. As a sequence of UV images are projected, the part solidifies and the build platform rises. The dead zone The heart of the CLIP process is the “dead zone” – a thin, liquid interface of uncured resin between the window and the printing part. Light passes through the dead zone, curing the resin above it to form a solid part. Resin flows beneath the curing part as the print progresses, maintaining the “continuous liquid interface” that powers CLIP. Thermal curing sets the properties Once a part is printed with CLIP, it’s baked in a forced-circulation oven. Thermal curing sets off a secondary chemical reaction that causes the materials to adapt and strengthen. Follow us @ http://mech.compafis.com https://www.fb.com/mecompafis (Yantiran) http://www.compafis.com Music: Hitman by Kevin MacLeod is licensed under a Creative Commons Attribution license (https://creativecommons.org/licenses/by/4.0/) Source: http://incompetech.com/music/royalty-free/index.html?isrc=USUAN1300013 Artist: http://incompetech.com/ -
2:57Continuous liquid interface production of 3D Objects Parte 2
Continuous liquid interface production of 3D Objects Parte 2Continuous liquid interface production of 3D Objects Parte 2
-
3:14Continuous production line for liquid
Continuous production line for liquidContinuous production line for liquid
-
2:02The Magic of the 3D Printing | 3D printer | 3D rapid prototyping 3D Print
The Magic of the 3D Printing | 3D printer | 3D rapid prototyping 3D PrintThe Magic of the 3D Printing | 3D printer | 3D rapid prototyping 3D Print
The Magic of the 3D Printing. 3D rapid prototyping. 3D printing (also know as additive manufacturing) is a processes used to make a three-dimensional object without the use of dies, molds or machining. In 3D printing additive processes are used, in which successive layers of material are laid down under computer control. These objects can often be of virtually any shape or geometry, and are produced from a 3D model or another electronic data source. 3d printing thus enables to production of parts which would not be possible with traditional manufacturing techniques. A 3D printer is a type of industrial robot, and can range from small scale consumer models to large factory units. 3D printing in the term's original sense refers to processes that sequentially deposit material onto a powder bed with inkjet printer heads. More recently the meaning of the term has expanded to encompass a wider variety of techniques such as extrusion and sintering based processes. Technical standards generally use the term additive manufacturing for this broader sense. There are a variety of processes and equipment used in the synthesis of a three-dimensional object. 3D printing is also known as additive manufacturing, therefore the numerous available 3D printing processes tend to be additive in nature with a few key differences. The main areas in which these processes differ are the technologies used in the process and the materials. Some of the different types of processes include extrusion, light polymerized, continuous liquid interface production and powder bed. Each process and piece of equipment has pros and cons associated with it. These usually involve aspects such as speed, costs, as well as a material's properties and its available colors. The variety of processes and equipment allows for numerous uses by amateurs and professionals alike. Some lend themselves better toward industry use whilst others make 3D printing accessible to the average consumer. Some printers are large enough to fabricate buildings whilst others tend to micro and nanoscale sized objects. Several 3D printing processes have been invented since the late 1970s. The printers were originally large, expensive, and highly limited in what they could produce. A large number of additive processes are now available. The main differences between processes are in the way layers are deposited to create parts and in the materials that are used. Some methods melt or soften the material to produce the layers, for example. selective laser melting (SLM) or direct metal laser sintering (DMLS), selective laser sintering (SLS), fused deposition modeling (FDM), or fused filament fabrication (FFF), while others cure liquid materials using different sophisticated technologies, such as stereolithography (SLA). With laminated object manufacturing (LOM), thin layers are cut to shape and joined together (e.g., paper, polymer, metal). Each method has its own advantages and drawbacks, which is why some companies offer a choice of powder and polymer for the material used to build the object. Others sometimes use standard, off-the-shelf business paper as the build material to produce a durable prototype. The main considerations in choosing a machine are generally speed, costs of the 3D printer, of the printed prototype, choice and cost of the materials, and color capabilities. Printers that work directly with metals are generally expensive. However less expensive printers can be used to make a mold, which is then used to make metal parts. -
1:57Continuous Liquid Interface Production
Continuous Liquid Interface Production -
0:313D printer ‘Grows’ objects from liquid
3D printer ‘Grows’ objects from liquid3D printer ‘Grows’ objects from liquid
Groundbreaking 3D printing technology created by the Silicon Valley startup Carbon3D Inc. can rapidly transform 3D models into physical objects. The technology has been dubbed CLIP, or Continuous Liquid Interface Production. By controlling the oxygen flux and UV light through a special window, it continuously grows solids out of a resin bath that triggers polymerization at speeds 25 to 100 times faster than traditional 3D printing. Watch the video to see how the objects are lifted up out of the ooze in just 10 minutes. Subscribe us on Youtube: https://www.youtube.com/user/CCTVNEWSbeijing Download for IOS: https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls;=1&mt;=8 Download for Android: https://play.google.com/store/apps/details?id=com.imib.cctv Follow us on: Facebook: https://www.facebook.com/cctvnewschina Twitter: https://twitter.com/CCTVNEWS Google+: https://plus.google.com/+CCTVNEWSbeijing Tumblr: http://cctvnews.tumblr.com/ Weibo: http://weibo.com/cctvnewsbeijing -
0:17Carbon Resin - PR - Prototyping
Carbon Resin - PR - PrototypingCarbon Resin - PR - Prototyping
PR is our prototyping resin with properties similar to SLA resins. It prints quickly, has excellent resolution, and performs well enough to withstand moderate functional testing. Learn more at Carbon3d.com ABOUT THE DEMONSTRATION Impellers are designed to suit specific application requirements. This demonstration showcases PR’s ability — in conjunction with CLIP — to prototype multiple iterations of an impeller with astonishing resolution, surface finish, and speed. The final part shown is printed with our high-performance CE resin. -
1:28Carbon 3D
Carbon 3DCarbon 3D
Since December 2014, the company has been working with Redwood City-based Carbon3D – which developed Continuous Liquid Interface Production technology (CLIP) – a 3D printing technology that grows parts from UV curable resins at speeds as much as 25 to 100 times faster than conventional 3D printing processes. The resulting parts boast mechanical properties that are applicable for a range of needs for Ford vehicles including high-quality automotive-grade parts.
developed with YouTube
-
Carbon CLIP Animation
published: 17 Mar 2015 -
Carbon3D CLIP technology demo 7X speed
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
published: 17 Mar 2015 -
Additive Manufacturing - Continuous Liquid Interface Production CLIP Technology
Additive Manufacturing - Continuous Liquid Interface Production (CLIP) Technology: ------------------------------------------------------------------ In this technique, instead of printing an object layer-by-layer, which leads to incredibly slow speeds as well as a weak overall structure similar to that of shale, this new process harnesses light as a way to cure the resin, and oxygen as an inhibiting agent. The continuous process begins with a pool of liquid photopolymer resin. Part of the pool bottom is transparent to ultraviolet light and oxygen(the window). An ultraviolet light beam shines through the window, illuminating the precise cross-section of the object. The light causes the resin to solidify. The object rises slowly enough to allow resin to flow under and maintain contact with...
published: 08 Nov 2015 -
What if 3D printing was 100x faster? | Joseph DeSimone
What we think of as 3D printing, says Joseph DeSimone, is really just 2D printing over and over ... slowly. Onstage at TED2015, he unveils a bold new technique — inspired, yes, by Terminator 2 — that's 25 to 100 times faster, and creates smooth, strong parts. Could it finally help to fulfill the tremendous promise of 3D printing? TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more. Find closed captions and translated subtitles in many languages at http://www.ted.com/translate Follow TED news on Twitter: http://www.twitter.com/tedn...
published: 19 Mar 2015 -
Carbon3D's Super Fast 3D Printer Printing an Eiffel Tower
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
published: 17 Mar 2015 -
3D printing technology ( continuous liquid interface production) - clip
published: 11 Jul 2017 -
What Is Continuous Liquid Interface Production (CLIP) 3D Printing?
Continuous Liquid Interface Production is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish. Parts printed with CLIP are much more like injection-molded parts. See other 3D printing processes on our playlist: https://www.youtube.com/playlist?list=PLxG8gV7GMn-hr7gGTpgvSXqhrA1dTjeTG Subscribe on YouTube: https://www.youtube.com/channel/UCkLki-J9W9LJQlZzfHT7sAw Visit our website: www.onelevelstudios.com Facebook: www.facebook.com/onelevelstudios Instagram: www.instagram.com/onelevelstudios Twitter: www.twitter.com/onelevelstudios
published: 26 Jun 2017 -
Continuous liquid interface production of 3D Objects Parte 1
published: 17 Mar 2015 -
New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015
Breaking news! CLIP is a new technology that allows 3D printing to take place at a far greater pace than current technologies. But will it be 3D printings 'magic bullet' into mass production? Here are my thoughts! Don't forget to subscribe so you don't miss any future 3D Printing Reviews, Tutorials or Projects! --- Like what we do? Visit us at makersmuse.com for more information about Makers Muse! Say G'day to us on Twitter and Instagram @makersmuse Ways you can support Maker's Muse: -Want to buy a 3D Printer but don't know where to start? Get our eBook here! https://gumroad.com/products/NBvg/ - Support us on Patreon https://www.patreon.com/makersmuse?ty=h -Buy a T-shirt! http://www.redbubble.com/people/maker... - By using our amazon affiliate links US - http://amzn.to/1Ym50j1 U...
published: 21 Mar 2015 -
-
Carbon M1 printer demo—High temp CE resin
This demo video illustrates four sterilizable stylette handles printing continuously in our high-performance CE resin. Created for use with surgical tools, this handle can be sterilized in an autoclave. Its internal rib structure provides excellent strength-to-weight ratio. This demo video was sped up to illustrate the process. The build height for this print is 104 mm. It took 3h 12min to print.
published: 02 Apr 2016 -
NewPro3D (World's Fastest?) at CES 2016
Diego Castanon is part of the NewPro3D team. Their printer is CLIP's biggest (and fastest) competitor. According to Diego, it prints the same sphere as the Carbon3D (6.5 minutes) in 4.3 minutes. It works without oxygen permeable glass so there is essentially no size limitation and it's non-dependent on specific resins. It utilizes a provisional patent which is described as a "dead-zone" to replace the glass layer. The build from CES uses what appears to be an off-the-shelf projector, but SLA would also be an option. Next, they are working on metal 3D printer which he claims will be twice as fast (as other metal printers?). We are certainly excited to see where this technology goes in the next year! Don't forget to follow Fargo 3D Printing for further updates. https://www.facebook.com/f...
published: 10 Feb 2016 -
World's Fastest 3D Printer | Carbon M1 | CA
CARBON M1 | World's Fastest 3D Printer Traditional approaches to additive manufacturing make trade-offs between surface finish and mechanical properties. Despite industry advances, no process delivers the combination of the two needed for end-use parts. CLIP – Continuous Liquid Interface Production – is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish. Benefits: Isotropic parts with exceptional surface finish Conventional 3D printed materials often exhibit variable strength and mechanical properties depending on the direction in which they were printed. CLIP parts behave consistently in all directions. The resolution and gentleness of our process — where parts aren’t harshly repositioned with every slic...
published: 14 Jan 2017 -
Continuous liquid interface production of 3D Objects Parte 2
published: 17 Mar 2015 -
Continuous production line for liquid
published: 25 Feb 2013 -
The Magic of the 3D Printing | 3D printer | 3D rapid prototyping 3D Print
The Magic of the 3D Printing. 3D rapid prototyping. 3D printing (also know as additive manufacturing) is a processes used to make a three-dimensional object without the use of dies, molds or machining. In 3D printing additive processes are used, in which successive layers of material are laid down under computer control. These objects can often be of virtually any shape or geometry, and are produced from a 3D model or another electronic data source. 3d printing thus enables to production of parts which would not be possible with traditional manufacturing techniques. A 3D printer is a type of industrial robot, and can range from small scale consumer models to large factory units. 3D printing in the term's original sense refers to processes that sequentially deposit material onto a powder be...
published: 08 Aug 2015 -
-
3D printer ‘Grows’ objects from liquid
Groundbreaking 3D printing technology created by the Silicon Valley startup Carbon3D Inc. can rapidly transform 3D models into physical objects. The technology has been dubbed CLIP, or Continuous Liquid Interface Production. By controlling the oxygen flux and UV light through a special window, it continuously grows solids out of a resin bath that triggers polymerization at speeds 25 to 100 times faster than traditional 3D printing. Watch the video to see how the objects are lifted up out of the ooze in just 10 minutes. Subscribe us on Youtube: https://www.youtube.com/user/CCTVNEWSbeijing Download for IOS: https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls;=1&mt;=8 Download for Android: https://play.google.com/store/apps/details?id=com.imib.cctv Follow us on: Facebook: http...
published: 20 Mar 2015 -
Carbon Resin - PR - Prototyping
PR is our prototyping resin with properties similar to SLA resins. It prints quickly, has excellent resolution, and performs well enough to withstand moderate functional testing. Learn more at Carbon3d.com ABOUT THE DEMONSTRATION Impellers are designed to suit specific application requirements. This demonstration showcases PR’s ability — in conjunction with CLIP — to prototype multiple iterations of an impeller with astonishing resolution, surface finish, and speed. The final part shown is printed with our high-performance CE resin.
published: 01 Apr 2016 -
Carbon 3D
Since December 2014, the company has been working with Redwood City-based Carbon3D – which developed Continuous Liquid Interface Production technology (CLIP) – a 3D printing technology that grows parts from UV curable resins at speeds as much as 25 to 100 times faster than conventional 3D printing processes. The resulting parts boast mechanical properties that are applicable for a range of needs for Ford vehicles including high-quality automotive-grade parts.
published: 23 Jun 2015
developed with YouTube
Carbon CLIP Animation
- Order: Reorder
- Duration: 1:14
- Updated: 17 Mar 2015
- views: 52605
- published: 17 Mar 2015
- views: 52605
Carbon3D CLIP technology demo 7X speed
- Order: Reorder
- Duration: 1:00
- Updated: 17 Mar 2015
- views: 669698
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current tech...
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
https://wn.com/Carbon3D_Clip_Technology_Demo_7X_Speed
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
- published: 17 Mar 2015
- views: 669698
Additive Manufacturing - Continuous Liquid Interface Production CLIP Technology
- Order: Reorder
- Duration: 1:27
- Updated: 08 Nov 2015
- views: 2710
Additive Manufacturing - Continuous Liquid Interface Production (CLIP) Technology:
------------------------------------------------------------------
In this t...
Additive Manufacturing - Continuous Liquid Interface Production (CLIP) Technology:
------------------------------------------------------------------
In this technique, instead of printing an object layer-by-layer, which leads to incredibly slow speeds as well as a weak overall structure similar to that of shale, this new process harnesses light as a way to cure the resin, and oxygen as an inhibiting agent. The continuous process begins with a pool of liquid photopolymer resin. Part of the pool bottom is transparent to ultraviolet light and oxygen(the window). An ultraviolet light beam shines through the window, illuminating the precise cross-section of the object. The light causes the resin to solidify. The object rises slowly enough to allow resin to flow under and maintain contact with the bottom of the object. An oxygen-permeable membrane lies below the resin, which creates a “dead zone” (persistent liquid interface) preventing the resin from attaching to the window (photopolymerization is inhibited between the window and the polymerizer). The machine will then produce a series of cross sectional images using ultraviolet light in a fashion similar to playing a movie. By bringing oxygen into the equation, a traditionally mechanical technique for 3D printing suddenly becomes a tunable photochemical process which rapidly decreases production times (25 to 100 times), removes the layering effect.
Eng. Rami Khalil
https://wn.com/Additive_Manufacturing_Continuous_Liquid_Interface_Production_Clip_Technology
Additive Manufacturing - Continuous Liquid Interface Production (CLIP) Technology:
------------------------------------------------------------------
In this technique, instead of printing an object layer-by-layer, which leads to incredibly slow speeds as well as a weak overall structure similar to that of shale, this new process harnesses light as a way to cure the resin, and oxygen as an inhibiting agent. The continuous process begins with a pool of liquid photopolymer resin. Part of the pool bottom is transparent to ultraviolet light and oxygen(the window). An ultraviolet light beam shines through the window, illuminating the precise cross-section of the object. The light causes the resin to solidify. The object rises slowly enough to allow resin to flow under and maintain contact with the bottom of the object. An oxygen-permeable membrane lies below the resin, which creates a “dead zone” (persistent liquid interface) preventing the resin from attaching to the window (photopolymerization is inhibited between the window and the polymerizer). The machine will then produce a series of cross sectional images using ultraviolet light in a fashion similar to playing a movie. By bringing oxygen into the equation, a traditionally mechanical technique for 3D printing suddenly becomes a tunable photochemical process which rapidly decreases production times (25 to 100 times), removes the layering effect.
Eng. Rami Khalil
- published: 08 Nov 2015
- views: 2710
What if 3D printing was 100x faster? | Joseph DeSimone
- Order: Reorder
- Duration: 10:47
- Updated: 19 Mar 2015
- views: 869258
What we think of as 3D printing, says Joseph DeSimone, is really just 2D printing over and over ... slowly. Onstage at TED2015, he unveils a bold new technique ...
What we think of as 3D printing, says Joseph DeSimone, is really just 2D printing over and over ... slowly. Onstage at TED2015, he unveils a bold new technique — inspired, yes, by Terminator 2 — that's 25 to 100 times faster, and creates smooth, strong parts. Could it finally help to fulfill the tremendous promise of 3D printing?
TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more.
Find closed captions and translated subtitles in many languages at http://www.ted.com/translate
Follow TED news on Twitter: http://www.twitter.com/tednews
Like TED on Facebook: https://www.facebook.com/TED
Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector
https://wn.com/What_If_3D_Printing_Was_100X_Faster_|_Joseph_Desimone
What we think of as 3D printing, says Joseph DeSimone, is really just 2D printing over and over ... slowly. Onstage at TED2015, he unveils a bold new technique — inspired, yes, by Terminator 2 — that's 25 to 100 times faster, and creates smooth, strong parts. Could it finally help to fulfill the tremendous promise of 3D printing?
TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more.
Find closed captions and translated subtitles in many languages at http://www.ted.com/translate
Follow TED news on Twitter: http://www.twitter.com/tednews
Like TED on Facebook: https://www.facebook.com/TED
Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector
- published: 19 Mar 2015
- views: 869258
Carbon3D's Super Fast 3D Printer Printing an Eiffel Tower
- Order: Reorder
- Duration: 0:46
- Updated: 17 Mar 2015
- views: 1591062
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current tech...
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
https://wn.com/Carbon3D's_Super_Fast_3D_Printer_Printing_An_Eiffel_Tower
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolutionize the industry. Their process is 25-100x's faster than current technology. Read and see more on this new Continuous Liquid Interface Production technology (CLIP) at http://3dprint.com/51566/carbon3d-clip-3d-printing/
- published: 17 Mar 2015
- views: 1591062
3D printing technology ( continuous liquid interface production) - clip
- Order: Reorder
- Duration: 1:00
- Updated: 11 Jul 2017
- views: 308
- published: 11 Jul 2017
- views: 308
What Is Continuous Liquid Interface Production (CLIP) 3D Printing?
- Order: Reorder
- Duration: 0:44
- Updated: 26 Jun 2017
- views: 62
Continuous Liquid Interface Production is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and ...
Continuous Liquid Interface Production is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish. Parts printed with CLIP are much more like injection-molded parts.
See other 3D printing processes on our playlist:
https://www.youtube.com/playlist?list=PLxG8gV7GMn-hr7gGTpgvSXqhrA1dTjeTG
Subscribe on YouTube: https://www.youtube.com/channel/UCkLki-J9W9LJQlZzfHT7sAw
Visit our website: www.onelevelstudios.com
Facebook: www.facebook.com/onelevelstudios
Instagram: www.instagram.com/onelevelstudios
Twitter: www.twitter.com/onelevelstudios
https://wn.com/What_Is_Continuous_Liquid_Interface_Production_(Clip)_3D_Printing
Continuous Liquid Interface Production is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish. Parts printed with CLIP are much more like injection-molded parts.
See other 3D printing processes on our playlist:
https://www.youtube.com/playlist?list=PLxG8gV7GMn-hr7gGTpgvSXqhrA1dTjeTG
Subscribe on YouTube: https://www.youtube.com/channel/UCkLki-J9W9LJQlZzfHT7sAw
Visit our website: www.onelevelstudios.com
Facebook: www.facebook.com/onelevelstudios
Instagram: www.instagram.com/onelevelstudios
Twitter: www.twitter.com/onelevelstudios
- published: 26 Jun 2017
- views: 62
Continuous liquid interface production of 3D Objects Parte 1
- Order: Reorder
- Duration: 3:00
- Updated: 17 Mar 2015
- views: 8315
- published: 17 Mar 2015
- views: 8315
New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015
- Order: Reorder
- Duration: 3:35
- Updated: 21 Mar 2015
- views: 14058
Breaking news! CLIP is a new technology that allows 3D printing to take place at a far greater pace than current technologies.
But will it be 3D printings 'mag...
Breaking news! CLIP is a new technology that allows 3D printing to take place at a far greater pace than current technologies.
But will it be 3D printings 'magic bullet' into mass production?
Here are my thoughts!
Don't forget to subscribe so you don't miss any future 3D Printing Reviews, Tutorials or Projects!
---
Like what we do?
Visit us at makersmuse.com for more information about Makers Muse!
Say G'day to us on Twitter and Instagram @makersmuse
Ways you can support Maker's Muse:
-Want to buy a 3D Printer but don't know where to start? Get our eBook here!
https://gumroad.com/products/NBvg/
- Support us on Patreon
https://www.patreon.com/makersmuse?ty=h
-Buy a T-shirt!
http://www.redbubble.com/people/maker...
- By using our amazon affiliate links
US - http://amzn.to/1Ym50j1
UK - http://amzn.to/1PJICdR
Or a direct donation through Youtube
And lastly, a BIG thanks to the community, and those who have supported us here at Makers Muse!
----
https://wn.com/New_3D_Printing_Technology_Prints_25_100X_Faster_Carbon3D_Clip_2015
Breaking news! CLIP is a new technology that allows 3D printing to take place at a far greater pace than current technologies.
But will it be 3D printings 'magic bullet' into mass production?
Here are my thoughts!
Don't forget to subscribe so you don't miss any future 3D Printing Reviews, Tutorials or Projects!
---
Like what we do?
Visit us at makersmuse.com for more information about Makers Muse!
Say G'day to us on Twitter and Instagram @makersmuse
Ways you can support Maker's Muse:
-Want to buy a 3D Printer but don't know where to start? Get our eBook here!
https://gumroad.com/products/NBvg/
- Support us on Patreon
https://www.patreon.com/makersmuse?ty=h
-Buy a T-shirt!
http://www.redbubble.com/people/maker...
- By using our amazon affiliate links
US - http://amzn.to/1Ym50j1
UK - http://amzn.to/1PJICdR
Or a direct donation through Youtube
And lastly, a BIG thanks to the community, and those who have supported us here at Makers Muse!
----
- published: 21 Mar 2015
- views: 14058
Additive Manufacturing at BMW Group
- Order: Reorder
- Duration: 2:57
- Updated: 18 Feb 2016
- views: 70260
Carbon M1 printer demo—High temp CE resin
- Order: Reorder
- Duration: 0:56
- Updated: 02 Apr 2016
- views: 48361
This demo video illustrates four sterilizable stylette handles printing continuously in our high-performance CE resin. Created for use with surgical tools, this...
This demo video illustrates four sterilizable stylette handles printing continuously in our high-performance CE resin. Created for use with surgical tools, this handle can be sterilized in an autoclave. Its internal rib structure provides excellent strength-to-weight ratio.
This demo video was sped up to illustrate the process. The build height for this print is 104 mm. It took 3h 12min to print.
https://wn.com/Carbon_M1_Printer_Demo—High_Temp_Ce_Resin
This demo video illustrates four sterilizable stylette handles printing continuously in our high-performance CE resin. Created for use with surgical tools, this handle can be sterilized in an autoclave. Its internal rib structure provides excellent strength-to-weight ratio.
This demo video was sped up to illustrate the process. The build height for this print is 104 mm. It took 3h 12min to print.
- published: 02 Apr 2016
- views: 48361
NewPro3D (World's Fastest?) at CES 2016
- Order: Reorder
- Duration: 8:00
- Updated: 10 Feb 2016
- views: 161675
Diego Castanon is part of the NewPro3D team. Their printer is CLIP's biggest (and fastest) competitor.
According to Diego, it prints the same sphere as the Car...
Diego Castanon is part of the NewPro3D team. Their printer is CLIP's biggest (and fastest) competitor.
According to Diego, it prints the same sphere as the Carbon3D (6.5 minutes) in 4.3 minutes. It works without oxygen permeable glass so there is essentially no size limitation and it's non-dependent on specific resins. It utilizes a provisional patent which is described as a "dead-zone" to replace the glass layer.
The build from CES uses what appears to be an off-the-shelf projector, but SLA would also be an option. Next, they are working on metal 3D printer which he claims will be twice as fast (as other metal printers?).
We are certainly excited to see where this technology goes in the next year!
Don't forget to follow Fargo 3D Printing for further updates.
https://www.facebook.com/fargo3dprinting
https://twitter.com/Fargo3DPrinting
http://www.pinterest.com/fargo3dprinting/
https://wn.com/Newpro3D_(World's_Fastest_)_At_Ces_2016
Diego Castanon is part of the NewPro3D team. Their printer is CLIP's biggest (and fastest) competitor.
According to Diego, it prints the same sphere as the Carbon3D (6.5 minutes) in 4.3 minutes. It works without oxygen permeable glass so there is essentially no size limitation and it's non-dependent on specific resins. It utilizes a provisional patent which is described as a "dead-zone" to replace the glass layer.
The build from CES uses what appears to be an off-the-shelf projector, but SLA would also be an option. Next, they are working on metal 3D printer which he claims will be twice as fast (as other metal printers?).
We are certainly excited to see where this technology goes in the next year!
Don't forget to follow Fargo 3D Printing for further updates.
https://www.facebook.com/fargo3dprinting
https://twitter.com/Fargo3DPrinting
http://www.pinterest.com/fargo3dprinting/
- published: 10 Feb 2016
- views: 161675
World's Fastest 3D Printer | Carbon M1 | CA
- Order: Reorder
- Duration: 2:18
- Updated: 14 Jan 2017
- views: 5498
CARBON M1 | World's Fastest 3D Printer
Traditional approaches to additive manufacturing make trade-offs between surface finish and mechanical properties. Desp...
CARBON M1 | World's Fastest 3D Printer
Traditional approaches to additive manufacturing make trade-offs between surface finish and mechanical properties. Despite industry advances, no process delivers the combination of the two needed for end-use parts. CLIP – Continuous Liquid Interface Production – is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish.
Benefits: Isotropic parts with exceptional surface finish
Conventional 3D printed materials often exhibit variable strength and mechanical properties depending on the direction in which they were printed. CLIP parts behave consistently in all directions. The resolution and gentleness of our process — where parts aren’t harshly repositioned with every slice — make it possible to exploit a range of materials that have the surface finish and detail needed for end-use parts.
CLIP shapes the part
CLIP is a photochemical process that carefully balances light and oxygen to rapidly produce parts. It works by projecting light through an oxygen-permeable window into a reservoir of UV-curable resin. As a sequence of UV images are projected, the part solidifies and the build platform rises.
The dead zone
The heart of the CLIP process is the “dead zone” – a thin, liquid interface of uncured resin between the window and the printing part. Light passes through the dead zone, curing the resin above it to form a solid part. Resin flows beneath the curing part as the print progresses, maintaining the “continuous liquid interface” that powers CLIP.
Thermal curing sets the properties
Once a part is printed with CLIP, it’s baked in a forced-circulation oven. Thermal curing sets off a secondary chemical reaction that causes the materials to adapt and strengthen.
Follow us @
http://mech.compafis.com
https://www.fb.com/mecompafis (Yantiran)
http://www.compafis.com
Music:
Hitman by Kevin MacLeod is licensed under a Creative Commons Attribution license (https://creativecommons.org/licenses/by/4.0/)
Source: http://incompetech.com/music/royalty-free/index.html?isrc=USUAN1300013
Artist: http://incompetech.com/
https://wn.com/World's_Fastest_3D_Printer_|_Carbon_M1_|_Ca
CARBON M1 | World's Fastest 3D Printer
Traditional approaches to additive manufacturing make trade-offs between surface finish and mechanical properties. Despite industry advances, no process delivers the combination of the two needed for end-use parts. CLIP – Continuous Liquid Interface Production – is a photochemical process that makes it possible to produce parts with excellent mechanical properties, resolution, and surface finish.
Benefits: Isotropic parts with exceptional surface finish
Conventional 3D printed materials often exhibit variable strength and mechanical properties depending on the direction in which they were printed. CLIP parts behave consistently in all directions. The resolution and gentleness of our process — where parts aren’t harshly repositioned with every slice — make it possible to exploit a range of materials that have the surface finish and detail needed for end-use parts.
CLIP shapes the part
CLIP is a photochemical process that carefully balances light and oxygen to rapidly produce parts. It works by projecting light through an oxygen-permeable window into a reservoir of UV-curable resin. As a sequence of UV images are projected, the part solidifies and the build platform rises.
The dead zone
The heart of the CLIP process is the “dead zone” – a thin, liquid interface of uncured resin between the window and the printing part. Light passes through the dead zone, curing the resin above it to form a solid part. Resin flows beneath the curing part as the print progresses, maintaining the “continuous liquid interface” that powers CLIP.
Thermal curing sets the properties
Once a part is printed with CLIP, it’s baked in a forced-circulation oven. Thermal curing sets off a secondary chemical reaction that causes the materials to adapt and strengthen.
Follow us @
http://mech.compafis.com
https://www.fb.com/mecompafis (Yantiran)
http://www.compafis.com
Music:
Hitman by Kevin MacLeod is licensed under a Creative Commons Attribution license (https://creativecommons.org/licenses/by/4.0/)
Source: http://incompetech.com/music/royalty-free/index.html?isrc=USUAN1300013
Artist: http://incompetech.com/
- published: 14 Jan 2017
- views: 5498
Continuous liquid interface production of 3D Objects Parte 2
- Order: Reorder
- Duration: 2:57
- Updated: 17 Mar 2015
- views: 2218
- published: 17 Mar 2015
- views: 2218
Continuous production line for liquid
- Order: Reorder
- Duration: 3:14
- Updated: 25 Feb 2013
- views: 2824
- published: 25 Feb 2013
- views: 2824
The Magic of the 3D Printing | 3D printer | 3D rapid prototyping 3D Print
- Order: Reorder
- Duration: 2:02
- Updated: 08 Aug 2015
- views: 6848
The Magic of the 3D Printing. 3D rapid prototyping. 3D printing (also know as additive manufacturing) is a processes used to make a three-dimensional object wit...
The Magic of the 3D Printing. 3D rapid prototyping. 3D printing (also know as additive manufacturing) is a processes used to make a three-dimensional object without the use of dies, molds or machining. In 3D printing additive processes are used, in which successive layers of material are laid down under computer control. These objects can often be of virtually any shape or geometry, and are produced from a 3D model or another electronic data source. 3d printing thus enables to production of parts which would not be possible with traditional manufacturing techniques. A 3D printer is a type of industrial robot, and can range from small scale consumer models to large factory units.
3D printing in the term's original sense refers to processes that sequentially deposit material onto a powder bed with inkjet printer heads. More recently the meaning of the term has expanded to encompass a wider variety of techniques such as extrusion and sintering based processes. Technical standards generally use the term additive manufacturing for this broader sense.
There are a variety of processes and equipment used in the synthesis of a three-dimensional object. 3D printing is also known as additive manufacturing, therefore the numerous available 3D printing processes tend to be additive in nature with a few key differences. The main areas in which these processes differ are the technologies used in the process and the materials.
Some of the different types of processes include extrusion, light polymerized, continuous liquid interface production and powder bed. Each process and piece of equipment has pros and cons associated with it. These usually involve aspects such as speed, costs, as well as a material's properties and its available colors.
The variety of processes and equipment allows for numerous uses by amateurs and professionals alike. Some lend themselves better toward industry use whilst others make 3D printing accessible to the average consumer. Some printers are large enough to fabricate buildings whilst others tend to micro and nanoscale sized objects.
Several 3D printing processes have been invented since the late 1970s. The printers were originally large, expensive, and highly limited in what they could produce.
A large number of additive processes are now available. The main differences between processes are in the way layers are deposited to create parts and in the materials that are used. Some methods melt or soften the material to produce the layers, for example. selective laser melting (SLM) or direct metal laser sintering (DMLS), selective laser sintering (SLS), fused deposition modeling (FDM), or fused filament fabrication (FFF), while others cure liquid materials using different sophisticated technologies, such as stereolithography (SLA). With laminated object manufacturing (LOM), thin layers are cut to shape and joined together (e.g., paper, polymer, metal). Each method has its own advantages and drawbacks, which is why some companies offer a choice of powder and polymer for the material used to build the object. Others sometimes use standard, off-the-shelf business paper as the build material to produce a durable prototype. The main considerations in choosing a machine are generally speed, costs of the 3D printer, of the printed prototype, choice and cost of the materials, and color capabilities.
Printers that work directly with metals are generally expensive. However less expensive printers can be used to make a mold, which is then used to make metal parts.
https://wn.com/The_Magic_Of_The_3D_Printing_|_3D_Printer_|_3D_Rapid_Prototyping_3D_Print
The Magic of the 3D Printing. 3D rapid prototyping. 3D printing (also know as additive manufacturing) is a processes used to make a three-dimensional object without the use of dies, molds or machining. In 3D printing additive processes are used, in which successive layers of material are laid down under computer control. These objects can often be of virtually any shape or geometry, and are produced from a 3D model or another electronic data source. 3d printing thus enables to production of parts which would not be possible with traditional manufacturing techniques. A 3D printer is a type of industrial robot, and can range from small scale consumer models to large factory units.
3D printing in the term's original sense refers to processes that sequentially deposit material onto a powder bed with inkjet printer heads. More recently the meaning of the term has expanded to encompass a wider variety of techniques such as extrusion and sintering based processes. Technical standards generally use the term additive manufacturing for this broader sense.
There are a variety of processes and equipment used in the synthesis of a three-dimensional object. 3D printing is also known as additive manufacturing, therefore the numerous available 3D printing processes tend to be additive in nature with a few key differences. The main areas in which these processes differ are the technologies used in the process and the materials.
Some of the different types of processes include extrusion, light polymerized, continuous liquid interface production and powder bed. Each process and piece of equipment has pros and cons associated with it. These usually involve aspects such as speed, costs, as well as a material's properties and its available colors.
The variety of processes and equipment allows for numerous uses by amateurs and professionals alike. Some lend themselves better toward industry use whilst others make 3D printing accessible to the average consumer. Some printers are large enough to fabricate buildings whilst others tend to micro and nanoscale sized objects.
Several 3D printing processes have been invented since the late 1970s. The printers were originally large, expensive, and highly limited in what they could produce.
A large number of additive processes are now available. The main differences between processes are in the way layers are deposited to create parts and in the materials that are used. Some methods melt or soften the material to produce the layers, for example. selective laser melting (SLM) or direct metal laser sintering (DMLS), selective laser sintering (SLS), fused deposition modeling (FDM), or fused filament fabrication (FFF), while others cure liquid materials using different sophisticated technologies, such as stereolithography (SLA). With laminated object manufacturing (LOM), thin layers are cut to shape and joined together (e.g., paper, polymer, metal). Each method has its own advantages and drawbacks, which is why some companies offer a choice of powder and polymer for the material used to build the object. Others sometimes use standard, off-the-shelf business paper as the build material to produce a durable prototype. The main considerations in choosing a machine are generally speed, costs of the 3D printer, of the printed prototype, choice and cost of the materials, and color capabilities.
Printers that work directly with metals are generally expensive. However less expensive printers can be used to make a mold, which is then used to make metal parts.
- published: 08 Aug 2015
- views: 6848
Continuous Liquid Interface Production
- Order: Reorder
- Duration: 1:57
- Updated: 12 Dec 2017
- views: 3
The basics on continuous liquid interface production!
To learn more, click the following links.
TED talk: https://www.ted.com/talks/joe_desimone_what_if_3d_prin...
The basics on continuous liquid interface production!
To learn more, click the following links.
TED talk: https://www.ted.com/talks/joe_desimone_what_if_3d_printing_was_25x_faster
Carbon: https://www.carbon3d.com/
https://wn.com/Continuous_Liquid_Interface_Production
3D printer ‘Grows’ objects from liquid
- Order: Reorder
- Duration: 0:31
- Updated: 20 Mar 2015
- views: 8141
Groundbreaking 3D printing technology created by the Silicon Valley startup Carbon3D Inc. can rapidly transform 3D models into physical objects. The technology ...
Groundbreaking 3D printing technology created by the Silicon Valley startup Carbon3D Inc. can rapidly transform 3D models into physical objects. The technology has been dubbed CLIP, or Continuous Liquid Interface Production. By controlling the oxygen flux and UV light through a special window, it continuously grows solids out of a resin bath that triggers polymerization at speeds 25 to 100 times faster than traditional 3D printing. Watch the video to see how the objects are lifted up out of the ooze in just 10 minutes.
Subscribe us on Youtube: https://www.youtube.com/user/CCTVNEWSbeijing
Download for IOS: https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls;=1&mt;=8
Download for Android: https://play.google.com/store/apps/details?id=com.imib.cctv
Follow us on:
Facebook: https://www.facebook.com/cctvnewschina
Twitter: https://twitter.com/CCTVNEWS
Google+: https://plus.google.com/+CCTVNEWSbeijing
Tumblr: http://cctvnews.tumblr.com/
Weibo: http://weibo.com/cctvnewsbeijing
https://wn.com/3D_Printer_‘Grows’_Objects_From_Liquid
Groundbreaking 3D printing technology created by the Silicon Valley startup Carbon3D Inc. can rapidly transform 3D models into physical objects. The technology has been dubbed CLIP, or Continuous Liquid Interface Production. By controlling the oxygen flux and UV light through a special window, it continuously grows solids out of a resin bath that triggers polymerization at speeds 25 to 100 times faster than traditional 3D printing. Watch the video to see how the objects are lifted up out of the ooze in just 10 minutes.
Subscribe us on Youtube: https://www.youtube.com/user/CCTVNEWSbeijing
Download for IOS: https://itunes.apple.com/us/app/cctvnews-app/id922456579?l=zh&ls;=1&mt;=8
Download for Android: https://play.google.com/store/apps/details?id=com.imib.cctv
Follow us on:
Facebook: https://www.facebook.com/cctvnewschina
Twitter: https://twitter.com/CCTVNEWS
Google+: https://plus.google.com/+CCTVNEWSbeijing
Tumblr: http://cctvnews.tumblr.com/
Weibo: http://weibo.com/cctvnewsbeijing
- published: 20 Mar 2015
- views: 8141
Carbon Resin - PR - Prototyping
- Order: Reorder
- Duration: 0:17
- Updated: 01 Apr 2016
- views: 12137
PR is our prototyping resin with properties similar to SLA resins. It prints quickly, has excellent resolution, and performs well enough to withstand moderate f...
PR is our prototyping resin with properties similar to SLA resins. It prints quickly, has excellent resolution, and performs well enough to withstand moderate functional testing.
Learn more at Carbon3d.com
ABOUT THE DEMONSTRATION
Impellers are designed to suit specific application requirements. This demonstration showcases PR’s ability — in conjunction with CLIP — to prototype multiple iterations of an impeller with astonishing resolution, surface finish, and speed. The final part shown is printed with our high-performance CE resin.
https://wn.com/Carbon_Resin_Pr_Prototyping
PR is our prototyping resin with properties similar to SLA resins. It prints quickly, has excellent resolution, and performs well enough to withstand moderate functional testing.
Learn more at Carbon3d.com
ABOUT THE DEMONSTRATION
Impellers are designed to suit specific application requirements. This demonstration showcases PR’s ability — in conjunction with CLIP — to prototype multiple iterations of an impeller with astonishing resolution, surface finish, and speed. The final part shown is printed with our high-performance CE resin.
- published: 01 Apr 2016
- views: 12137
Carbon 3D
- Order: Reorder
- Duration: 1:28
- Updated: 23 Jun 2015
- views: 8657
Since December 2014, the company has been working with Redwood City-based Carbon3D – which developed Continuous Liquid Interface Production technology (CLIP) – ...
Since December 2014, the company has been working with Redwood City-based Carbon3D – which developed Continuous Liquid Interface Production technology (CLIP) – a 3D printing technology that grows parts from UV curable resins at speeds as much as 25 to 100 times faster than conventional 3D printing processes. The resulting parts boast mechanical properties that are applicable for a range of needs for Ford vehicles including high-quality automotive-grade parts.
https://wn.com/Carbon_3D
Since December 2014, the company has been working with Redwood City-based Carbon3D – which developed Continuous Liquid Interface Production technology (CLIP) – a 3D printing technology that grows parts from UV curable resins at speeds as much as 25 to 100 times faster than conventional 3D printing processes. The resulting parts boast mechanical properties that are applicable for a range of needs for Ford vehicles including high-quality automotive-grade parts.
- published: 23 Jun 2015
- views: 8657
-
A Future Fabricated with Light | Joe DeSimone | Carbon3D | CES 2016
The man behind one of the 3D printing industry's most recent breakthrough technologies, Joe DeSimone, CEO & co-founder of Carbon3D, speaks at the TCT presented CES 2016 3D Printing Conference about the latest developments in CLIP technology including high-performance materials and real life applications.
published: 23 Mar 2016 -
3D in Review 14 - 20 March, 2015 - "Carbon3D Clip - Just a Lot of Hot Oxygen?"
In this week in "3D in Review," we invite a number of UV resin based printing experts to come on and talk about the much publicized (hyped?) Carbon3D Clip, a $179 Delta printer, Mike's trip to SXSW, feedback from Fuel3D themselves on my less than enthusiastic review of the Fuel3D Scanify, plus a whole lot more. Episodes in the can: Panel Discussion at South by Southwest Guest Crasher: Stephen Crossland, Fuel3D, Jasper Brekelman, Brekel.com, and Brad Hill. News: Mike (with input from Brad Hill & Brian Martinez) - Carbon3D - http://carbon3d.com/ http://3dprint.com/51566/carbon3d-clip-3d-printing/ Chris - PLEN2, the world’s first printable open-source humanoid. Mike - Tiko, the $179 Delta Printer - http://tiko3d.com/ Chris - New Zealand Man 3D Prints the World’s Smallest Working Drill...
published: 20 Mar 2015 -
3D Printing Bag Clip
Printing this bag clip to clip my bags
published: 19 Jun 2017 -
PC Perspective Podcast 341 - 03/19/15
http://pcper.com/podcast Podcast topics of discussion: Join our spam list to get notified when we go live! Week in Review: 0:02:20 Patriot Memory Supersonic Rage 2 and Phoenix 256GB USB 3.0 Flash Drive Mini-roundup 0:08:40 Lian Li PC-Q33 Mini ITX Enclosure Review: A Small Aluminum Case with Hinged Construction 0:11:15 The NVIDIA GeForce GTX TITAN X 12GB GM200 Review News item of interest: 0:24:55 GTC 2015 GTC 2015: NVIDIA Roadmap Shows Pascal with 3D Memory, NVLink and Mixed Precision Compute NVIDIA Announces DIGITS DevBox - 28 TFLOPS, 1300 Watts, $15k NVIDIA Quadro M6000 Leaks via Deadmau5 0:40:35 New Intel Xeon D Broadwell Processors Aimed at Low Power, High Density Servers 0:43:30 Report: ASRock to Reveal Mini-ITX Haswell-E Motherboard at CeBIT - The X99E-ITX/ac 0:46:15 MSI Announces ...
published: 20 Mar 2015 -
06. Основы SLA технологии. Запись вебинара от 12.02.2016
Вебинар «Методы аддитивного производства. Технология SLA» Ведущий вебинара: Ася Арутюнян ///////////////////////////////////////////////////////////////////// Жми ►►► https://vk.com/inform_3d ◄◄◄ и подписывайся БОЛЬШЕ ИНТЕРЕСНОЙ ИНФОРМАЦИИ О 3D ТЕХНОЛОГИЯХ ///////////////////////////////////////////////////////////////////// Навигация по видео "Основы SLA технологии": 00:57 Что такое SLA? 13:36 Особенности SLA технологии. 15:46 Классическая технология SLA. 20:00 Технология DLP (Digital Light Processing). 27:41 Технология MJM (Multi Jet Modeling) или PolyJet. 40:39 Технология CLIP – Continuous Liquid Interface Production. 49:00 Плюсы и минусы технологии SLA. //////////////////////////////////////////////////////////////////////// Подписаться на канал inForm3d: http://www.youtube.co...
published: 13 Feb 2016 -
3D modeling for 3D printing
Google Tech Talk May 17, 2013 (more info below) Presented by Vladimir Bulatov. ABSTRACT We discuss technical challenges of creation of 3D printable models and what Shapeways team is doing to help developers and regular users to create unique and customizable 3D pieces. In particular we will pay attention to use of AbBab3D - open source software for 3D voxel based modeling library developed by Shapeways. About the Speaker: Vladimir Bulatov, PhD. Prior of joining Shapeways in 2012 as 3D graphics research scientist Vladimir has been doing academic research in theoretical physics at St. Petersburg University and Imperial College and developing software for non visual access to scientific information at ViewPlus Technologies. He also runs his own business of making mathematically inspired...
published: 17 Jun 2013 -
Lifecycle Approach to API Process Validation
The goal of API process validation is to ensure the reliable production of high-quality active pharmaceutical ingredients from development through commercialization. The product lifecycle approach established in FDA's 2011 Process Validation Guidance requires different validation activities during the process design and process qualification stages, as well as continued process verification throughout the life of the commercial process. The process validation needs for pre-qualification activities and ongoing process verification can be daunting, especially for small and medium-size pharmaceutical companies. In this webinar, experts on API process validation outline the key requirements for development of a phase appropriate manufacturing plan including regulatory requirements, data colle...
published: 26 Nov 2014 -
Let’s Talk Future Materials: game changers for industry
http://www.skf.com/group/our-company/letstalk/futurematerials/index.html This film is subtitled in 7 languages. The number of new materials and products being researched for industry has exploded over the last 20 years. And so has the demand. This is drastically changing the role of industrial designers and maintenance engineers. New materials technology experts on the Let’s Talk panel provide insights into how these materials will affect industry in the coming years. Hear from polymer expert Professor Theo Dingemans, metallurgy specialist Professor Harry Bhadeshia, steels specialist Martin Rawson from Rolls-Royce and metallurgist Steven Lane from SKF. Want to learn more? Watch the video. Here are the different topics covered: 1) Steel industry status – its current role and new stee...
published: 21 Nov 2016 -
Well To Well tracer tests for reservoir characterisation and measurement of EOR effectiveness
Learn how chemical tracer technology can enable you to optimise development plans to increase reservoir production and reduce costs. Adding chemical tracer technology to your reservoir surveillance toolkit can enable you to gather vital oil and water in-flow data from your lower completion, with no costly intervention; saving time and money by building up a long-term and continuous picture of your wells’ production performance.
published: 12 Apr 2016 -
QFD and ISO 9000
Six Sigma by Dr. T. P. Bagchi , Department of Management, IIT Kharagpur. For more details on NPTEL visit http://nptel.iitm.ac.in
published: 02 Jan 2012 -
Martin Fowler in Barcelona, by ThoughtWorks
Software Design in the 21st Century =================================== https://www.thoughtworks.com/ In the last decade or so we've seen a number of new ideas added to the mix to help us effectively design our software. Patterns help us capture the solutions and rationale for using them. Refactoring allows us to alter the design of a system after the code is written. Agile methods, in particular Extreme Programming, give us a highly iterative and evolutionary approach which is particularly well suited to changing requirements and environments. Martin Fowler has been a leading voice in these techniques and will give a suite of short talks featuring various aspects of how these and other developments affect our software development.
published: 14 Jun 2017 -
GOTO 2012 • The Browser is Dead • Dan North
This presentation was recorded at GOTO Aarhus 2012 http://gotocon.com Dan North - Agile Troublemaker, Developer, Originator of BDD ABSTRACT Three years ago I had never written a browser application. I had written plenty of web apps, but really I was coding like it's 1999. And did I mention I'm useless at design? So I was writing ugly web apps like it's 1999! Then I started working with a rather unusual programmer who was writing front office trading apps - traditionally the domain of rich desktop clients - in a browser. In a browser! Surely it would be too slow? And the user experience would suck? But it wasn't. And it didn't. Because the browser isn't just a browser any more. Three years on I can get from zero to functional faster than I ever thought possible. I can create feature-ric...
published: 20 Mar 2013 -
Eleaf iStick Pico 25 w/Ello tank - Vape Don't Smoke Reviews
The iStick Pico 25 ingeniously packs a big 0.91-inch screen that offers a concise and clear interface, 2A quick charge capability and upgradeable firmware with preheat function in a compact, stylish yet powerful package. Powered by single 18650 battery, the iStick Pico 25 is capable of outputting a maximum power of 85W and can handle various tanks up to 25mm diameter. With a compact size, you can hold it in the palm, much more convenient for usage and portability. ELLO clearomizer features: Convenient retractable top fill system: To fill the ELLO tank, you just slide the drip tip back and it reveals the fill port, which is quite easy to use and works very well. Glass tank E-liquid capacity: 2ml Dual air inlets with optimal airflow: The dual air inlets allow optimal airflow for great vapor...
published: 18 May 2017 -
Review: Dent 2 by Unfiltered Audio
Download Links & Learn More... http://www.joshuacasper.com/tutorials/dent-2-by-unfiltered-audio/ Dent 2 combines analog overdrive with digital destruction, wave shaping, bit crushing, circuit bending, wave set processing & modulation. Dent 2 is the bigger brother on Indent 2 - which comes included with every purchase of Dent 2 Where Indent 2 is designed to saturate, distort & modulate, Dent 2 is unapologetically a digital waveform work station designed to give you complete control over the audio wave cycle. Watch the Video Review Signal Path Sample Reduction Engine Input Gain Wave Shaper Output Gain Trim Bit Crusher (1a) Filter (Can be placed before the Input Gain) DC Block Sound Shaping Complex Mode (10 algorithms and 3 clipping stages) Mix Automatic Gain Compensation Trim Wave S...
published: 23 Oct 2017 -
Eicke R. Weber: Photovoltaics Moving into the Terawatt Age
A plenary talk from SPIE Optics + Photonics 2017 - http://spie.org/op In the last few years, PV electricity has become cost-competitive with electricity produced by conventional sources, notes Eicke Weber, Berkeley Education Alliance for Research in Singapore and University of California, Berkeley, in this plenary talk. Global PV production capacity will double within the next five years to 100-120 GWp/a, bringing PV installations into the terawatt range. A key factor for this growth will be continuous technology advances aimed at higher efficiencies at reduced cost. In addition, cell efficiency will be even more important than lowest cost, to optimize energy harvest from a given area. Crystalline silicon technology currently represents 90% of the global PV market. This technology is ap...
published: 28 Aug 2017 -
David's Thesis Defense
I will be defending my thesis: "Alloyed and Chemically Modified Metal Cataylsts for the Electrochemical Reduction of CO2 on Friday, December 19th at 9am (PST). It will take place at Stanford's Y2E2 building, room 111, and there will be breakfasty refreshments. Otherwise, there is a link to a livestream that will be turned on just before 9am. You can watch it live, and if you like it enough (or if you can't watch it live due to work etc.) you can watch it again and again as the link will stay active as a youtube video!
published: 19 Dec 2014 -
FIBRENAMICS: O Extraordinário Mundo das Fibras - Episódio 1 - O Mundo das Fibras
SINOPSE: Indissociáveis de todos os capítulos da história da Humanidade, as fibras são assim dos materiais mais utilizados de sempre. Apesar de ter sido na natureza que inicialmente o Homem as descobriu, com o evoluir do tempo apareceram as primeiras fibras sintéticas e, após estas, fibras com propriedades inimagináveis. Que mais reserva o futuro para estes extraordinários materiais? Um Projecto Fibrenamics: www.fibrenamics.com FICHA TÉCNICA: Coordenação Científica: Raul Fangueiro, Escola de Engenharia - Universidade do Minho Equipa Fibrenamics: Carlos Almeida, Catarina Guise, Katherine Rosado, Rita Rebelo, Sílvia Carvalho Guião: Hugo Manuel Correia Imagem: Carlos Oliveira, Hélder Tavares, Joana Deusdado, José Lemos, Rui Costa, Sérgio Morgado, Tiago Mendes Montagem: Joana Deusdado Grafi...
published: 09 Oct 2013 -
High End Computing and Scientific Visualization at NASA
Google TechTalks January 25, 2006 Dr. Rupak Biswas and Dr. Chris Henze Dr. Rupak Biswas is currently the Acting Chief of the NASA Advanced Supercomputing (NAS) Division at NASA Ames Research Center. Dr. Biswas received his Ph.D. in Computer Science from Rensselaer Polytechnic Institute in 1991 and has been at NASA ever since. Chris Henze is the lead of the Visualization Group in the NASA Advanced Supercomputing (NAS) Division at Ames Research Center, in which capacity he supervises research and development activities in data analysis and visualization. Dr. Henze received his Ph.D. in computational biology from the University of Arizona in 1993.
published: 23 Jul 2007 -
Activated carbon
Activated carbon, also called activated charcoal, activated coal, or carbo activatus, is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption or chemical reactions. Activated is sometimes substituted with active. Due to its high degree of microporosity, just one gram of activated carbon has a surface area in excess of 500 m2, as determined by gas adsorption. An activation level sufficient for useful application may be attained solely from high surface area; however, further chemical treatment often enhances adsorption properties. This video is targeted to blind users. Attribution: Article text available under CC-BY-SA Creative Commons image source in video
published: 01 Aug 2014 -
developed with YouTube
A Future Fabricated with Light | Joe DeSimone | Carbon3D | CES 2016
- Order: Reorder
- Duration: 24:02
- Updated: 23 Mar 2016
- views: 2396
The man behind one of the 3D printing industry's most recent breakthrough technologies, Joe DeSimone, CEO & co-founder of Carbon3D, speaks at the TCT presented ...
The man behind one of the 3D printing industry's most recent breakthrough technologies, Joe DeSimone, CEO & co-founder of Carbon3D, speaks at the TCT presented CES 2016 3D Printing Conference about the latest developments in CLIP technology including high-performance materials and real life applications.
https://wn.com/A_Future_Fabricated_With_Light_|_Joe_Desimone_|_Carbon3D_|_Ces_2016
The man behind one of the 3D printing industry's most recent breakthrough technologies, Joe DeSimone, CEO & co-founder of Carbon3D, speaks at the TCT presented CES 2016 3D Printing Conference about the latest developments in CLIP technology including high-performance materials and real life applications.
- published: 23 Mar 2016
- views: 2396
3D in Review 14 - 20 March, 2015 - "Carbon3D Clip - Just a Lot of Hot Oxygen?"
- Order: Reorder
- Duration: 1:33:45
- Updated: 20 Mar 2015
- views: 7830
In this week in "3D in Review," we invite a number of UV resin based printing experts to come on and talk about the much publicized (hyped?) Carbon3D Clip, a $1...
In this week in "3D in Review," we invite a number of UV resin based printing experts to come on and talk about the much publicized (hyped?) Carbon3D Clip, a $179 Delta printer, Mike's trip to SXSW, feedback from Fuel3D themselves on my less than enthusiastic review of the Fuel3D Scanify, plus a whole lot more.
Episodes in the can: Panel Discussion at South by Southwest
Guest Crasher: Stephen Crossland, Fuel3D, Jasper Brekelman, Brekel.com, and Brad Hill.
News:
Mike (with input from Brad Hill & Brian Martinez) - Carbon3D - http://carbon3d.com/
http://3dprint.com/51566/carbon3d-clip-3d-printing/
Chris - PLEN2, the world’s first printable open-source humanoid.
Mike - Tiko, the $179 Delta Printer - http://tiko3d.com/
Chris - New Zealand Man 3D Prints the World’s Smallest Working Drill — Just 7.5mm Wide - http://3dprint.com/51677/3d-printed-smallest-drill/
Projects of the week:
Mike - Moderator at SXSW Interactive presentation titled “3D Printing: Myth vs Truth”
Mike - Further testing of the latest from Occipital - Can you say excellent progress
Mike - Getting the damn V.360 to behave - https://www.youtube.com/watch?v=8jsi9wZm6o0
Chris - Cyborg Beast Hand from e-nabling the future.org
Products of the week:
Mike - Pro Face V2 from http://brekel.com with Jasper to talk about it.
Mike - Normals the 3D printed custom high quality ear-buds - http://nrml.com/
Chris - E3d Volcano!
Digital Toolbox:
Mike or Chris - A first look at OnShape
The Print Whisperer:
Chris - Bake that Nylon. Get an EZ Oven from a Mart and cook you filament to help remove residual moisture.
Interactive 3D Corner:
Mike - Epic has release the Unreal Developer Kit 4.7 - https://www.unrealengine.com/blog/unreal-engine-47-released
Unity has released 5.0 - http://unity3d.com/
How to upload your V.360 video to YouTube - The easy and the hard wa and what is gravely wrong with the V.360 - https://support.google.com/youtube/answer/6178631?hl=en&ref;_topic=2888648
Updates from the Past:
Mike - Fuel3D - Scanify - https://fuel-3d.com/ (Stephen Crossland will answer some of my burning questions)
Upcoming Events:
Midwest Reprpap Festival 2015 - http://midwestreprapfest.org/
3D conferences, expos and events around the world
http://3dprintingforbeginners.com/fairs_events/
https://wn.com/3D_In_Review_14_20_March,_2015_Carbon3D_Clip_Just_A_Lot_Of_Hot_Oxygen
In this week in "3D in Review," we invite a number of UV resin based printing experts to come on and talk about the much publicized (hyped?) Carbon3D Clip, a $179 Delta printer, Mike's trip to SXSW, feedback from Fuel3D themselves on my less than enthusiastic review of the Fuel3D Scanify, plus a whole lot more.
Episodes in the can: Panel Discussion at South by Southwest
Guest Crasher: Stephen Crossland, Fuel3D, Jasper Brekelman, Brekel.com, and Brad Hill.
News:
Mike (with input from Brad Hill & Brian Martinez) - Carbon3D - http://carbon3d.com/
http://3dprint.com/51566/carbon3d-clip-3d-printing/
Chris - PLEN2, the world’s first printable open-source humanoid.
Mike - Tiko, the $179 Delta Printer - http://tiko3d.com/
Chris - New Zealand Man 3D Prints the World’s Smallest Working Drill — Just 7.5mm Wide - http://3dprint.com/51677/3d-printed-smallest-drill/
Projects of the week:
Mike - Moderator at SXSW Interactive presentation titled “3D Printing: Myth vs Truth”
Mike - Further testing of the latest from Occipital - Can you say excellent progress
Mike - Getting the damn V.360 to behave - https://www.youtube.com/watch?v=8jsi9wZm6o0
Chris - Cyborg Beast Hand from e-nabling the future.org
Products of the week:
Mike - Pro Face V2 from http://brekel.com with Jasper to talk about it.
Mike - Normals the 3D printed custom high quality ear-buds - http://nrml.com/
Chris - E3d Volcano!
Digital Toolbox:
Mike or Chris - A first look at OnShape
The Print Whisperer:
Chris - Bake that Nylon. Get an EZ Oven from a Mart and cook you filament to help remove residual moisture.
Interactive 3D Corner:
Mike - Epic has release the Unreal Developer Kit 4.7 - https://www.unrealengine.com/blog/unreal-engine-47-released
Unity has released 5.0 - http://unity3d.com/
How to upload your V.360 video to YouTube - The easy and the hard wa and what is gravely wrong with the V.360 - https://support.google.com/youtube/answer/6178631?hl=en&ref;_topic=2888648
Updates from the Past:
Mike - Fuel3D - Scanify - https://fuel-3d.com/ (Stephen Crossland will answer some of my burning questions)
Upcoming Events:
Midwest Reprpap Festival 2015 - http://midwestreprapfest.org/
3D conferences, expos and events around the world
http://3dprintingforbeginners.com/fairs_events/
- published: 20 Mar 2015
- views: 7830
3D Printing Bag Clip
- Order: Reorder
- Duration: 1:00:22
- Updated: 19 Jun 2017
- views: 44
Printing this bag clip to clip my bags
Printing this bag clip to clip my bags
https://wn.com/3D_Printing_Bag_Clip
Printing this bag clip to clip my bags
- published: 19 Jun 2017
- views: 44
PC Perspective Podcast 341 - 03/19/15
- Order: Reorder
- Duration: 1:15:45
- Updated: 20 Mar 2015
- views: 7200
http://pcper.com/podcast
Podcast topics of discussion:
Join our spam list to get notified when we go live!
Week in Review:
0:02:20 Patriot Memory Supersonic R...
http://pcper.com/podcast
Podcast topics of discussion:
Join our spam list to get notified when we go live!
Week in Review:
0:02:20 Patriot Memory Supersonic Rage 2 and Phoenix 256GB USB 3.0 Flash Drive Mini-roundup
0:08:40 Lian Li PC-Q33 Mini ITX Enclosure Review: A Small Aluminum Case with Hinged Construction
0:11:15 The NVIDIA GeForce GTX TITAN X 12GB GM200 Review
News item of interest:
0:24:55 GTC 2015
GTC 2015: NVIDIA Roadmap Shows Pascal with 3D Memory, NVLink and Mixed Precision Compute
NVIDIA Announces DIGITS DevBox - 28 TFLOPS, 1300 Watts, $15k
NVIDIA Quadro M6000 Leaks via Deadmau5
0:40:35 New Intel Xeon D Broadwell Processors Aimed at Low Power, High Density Servers
0:43:30 Report: ASRock to Reveal Mini-ITX Haswell-E Motherboard at CeBIT - The X99E-ITX/ac
0:46:15 MSI Announces New AMD And Intel Motherboards With USB 3.1
0:52:40 The Tech Report Endurance Test Ends Just After 2.4PB
1:00:10 HSA Version 1.0 arrived today
1:02:30 Windows 10 Build 10041 Released to Insiders
Hardware/Software Picks of the Week:
Jeremy: Continuous liquid interface production of 3D objects
Josh: Get it while it is hot!
Allyn: WASD Cherry Keyboard O-Rings (blue)
Morry: Cordkillers need look no further
http://pcper.com/podcast
http://twitter.com/ryanshrout and http://twitter.com/pcper
Closing/outro
https://wn.com/Pc_Perspective_Podcast_341_03_19_15
http://pcper.com/podcast
Podcast topics of discussion:
Join our spam list to get notified when we go live!
Week in Review:
0:02:20 Patriot Memory Supersonic Rage 2 and Phoenix 256GB USB 3.0 Flash Drive Mini-roundup
0:08:40 Lian Li PC-Q33 Mini ITX Enclosure Review: A Small Aluminum Case with Hinged Construction
0:11:15 The NVIDIA GeForce GTX TITAN X 12GB GM200 Review
News item of interest:
0:24:55 GTC 2015
GTC 2015: NVIDIA Roadmap Shows Pascal with 3D Memory, NVLink and Mixed Precision Compute
NVIDIA Announces DIGITS DevBox - 28 TFLOPS, 1300 Watts, $15k
NVIDIA Quadro M6000 Leaks via Deadmau5
0:40:35 New Intel Xeon D Broadwell Processors Aimed at Low Power, High Density Servers
0:43:30 Report: ASRock to Reveal Mini-ITX Haswell-E Motherboard at CeBIT - The X99E-ITX/ac
0:46:15 MSI Announces New AMD And Intel Motherboards With USB 3.1
0:52:40 The Tech Report Endurance Test Ends Just After 2.4PB
1:00:10 HSA Version 1.0 arrived today
1:02:30 Windows 10 Build 10041 Released to Insiders
Hardware/Software Picks of the Week:
Jeremy: Continuous liquid interface production of 3D objects
Josh: Get it while it is hot!
Allyn: WASD Cherry Keyboard O-Rings (blue)
Morry: Cordkillers need look no further
http://pcper.com/podcast
http://twitter.com/ryanshrout and http://twitter.com/pcper
Closing/outro
- published: 20 Mar 2015
- views: 7200
06. Основы SLA технологии. Запись вебинара от 12.02.2016
- Order: Reorder
- Duration: 1:04:10
- Updated: 13 Feb 2016
- views: 283
Вебинар «Методы аддитивного производства. Технология SLA»
Ведущий вебинара: Ася Арутюнян
////////////////////////////////////////////////////////////////////...
Вебинар «Методы аддитивного производства. Технология SLA»
Ведущий вебинара: Ася Арутюнян
/////////////////////////////////////////////////////////////////////
Жми ►►► https://vk.com/inform_3d ◄◄◄ и подписывайся
БОЛЬШЕ ИНТЕРЕСНОЙ ИНФОРМАЦИИ О 3D ТЕХНОЛОГИЯХ
/////////////////////////////////////////////////////////////////////
Навигация по видео "Основы SLA технологии":
00:57 Что такое SLA?
13:36 Особенности SLA технологии.
15:46 Классическая технология SLA.
20:00 Технология DLP (Digital Light Processing).
27:41 Технология MJM (Multi Jet Modeling) или PolyJet.
40:39 Технология CLIP – Continuous Liquid Interface Production.
49:00 Плюсы и минусы технологии SLA.
////////////////////////////////////////////////////////////////////////
Подписаться на канал inForm3d: http://www.youtube.com/user/mpgautor?sub_confirmation=1
////////////////////////////////////////////////////////////////////////
Похожие видео:
01. Введение в аддитивные технологии. Запись вебинара от 03.02.2016 - https://youtu.be/fnvYnwejPEg
02. Основы FDM технологии. Запись вебинара от 05.02.2016 - https://youtu.be/EFpSlUv4fP0
03. Технологии аддитивного производства: общие понятия. Запись вебинара от 06.02.2016 - https://youtu.be/dNwoBrJDvRM
04. Классификация и сравнение технологий аддитивного производства. Запись вебинара от 09.02.2016 - https://youtu.be/3V-zIOZm_Vs
05. Основы SLS технологии. Запись вебинара от 10.02.2016 - https://youtu.be/XlagdBvOITY
07. Оборудование и производители. Запись вебинара от 13.02.2016 - https://youtu.be/Wb--lbL88CI
08. Материалы для аддитивного производства. Запись вебинара от 16.02.2016 - https://youtu.be/GG7HKhUepxo
09. Необычные технологии 3D печати. Запись вебинара от 17.02.2016 - https://youtu.be/wkGj1oPXZqw
10. Сравнение технологий FDM, SLS, SLA. Запись вебинара от 19.02.2016 - https://youtu.be/qSXBeKt-v5s
11. Программное обеспечение для создания и проектирования 3D моделей. Запись вебинара от 20.02.2016 - https://youtu.be/sA_UxUxm-s4
12. Форматы файлов для 3D печати. Запись вебинара от 25.02.2016 - https://youtu.be/ISdNaR-WhCM
13. Расходные материалы для FDM печати. Запись вебинара от 26.02.2016 - https://youtu.be/_v7gDTtbY-E
3d моделирование и 3d печать в создании косплеев. Часть 1 -https://youtu.be/c5TrWHwXcjg
3d моделирование и 3d печать в создании косплеев. Часть 2. (Живой показ 3d моделирования в программах Autodesk MAYA, Autodesk INVENTOR, Pixologic ZBRUSH). -https://youtu.be/Y4mkIQMT21o
Как работать в программе Fusion 360. Запись вебинара от 24.11.15 - https://youtu.be/hHXHiboMyaU
Как просто 3d моделировать монстров и роботов в стиле Бионикл. - https://youtu.be/s1aA3C_sjJE
https://wn.com/06._Основы_Sla_Технологии._Запись_Вебинара_От_12.02.2016
Вебинар «Методы аддитивного производства. Технология SLA»
Ведущий вебинара: Ася Арутюнян
/////////////////////////////////////////////////////////////////////
Жми ►►► https://vk.com/inform_3d ◄◄◄ и подписывайся
БОЛЬШЕ ИНТЕРЕСНОЙ ИНФОРМАЦИИ О 3D ТЕХНОЛОГИЯХ
/////////////////////////////////////////////////////////////////////
Навигация по видео "Основы SLA технологии":
00:57 Что такое SLA?
13:36 Особенности SLA технологии.
15:46 Классическая технология SLA.
20:00 Технология DLP (Digital Light Processing).
27:41 Технология MJM (Multi Jet Modeling) или PolyJet.
40:39 Технология CLIP – Continuous Liquid Interface Production.
49:00 Плюсы и минусы технологии SLA.
////////////////////////////////////////////////////////////////////////
Подписаться на канал inForm3d: http://www.youtube.com/user/mpgautor?sub_confirmation=1
////////////////////////////////////////////////////////////////////////
Похожие видео:
01. Введение в аддитивные технологии. Запись вебинара от 03.02.2016 - https://youtu.be/fnvYnwejPEg
02. Основы FDM технологии. Запись вебинара от 05.02.2016 - https://youtu.be/EFpSlUv4fP0
03. Технологии аддитивного производства: общие понятия. Запись вебинара от 06.02.2016 - https://youtu.be/dNwoBrJDvRM
04. Классификация и сравнение технологий аддитивного производства. Запись вебинара от 09.02.2016 - https://youtu.be/3V-zIOZm_Vs
05. Основы SLS технологии. Запись вебинара от 10.02.2016 - https://youtu.be/XlagdBvOITY
07. Оборудование и производители. Запись вебинара от 13.02.2016 - https://youtu.be/Wb--lbL88CI
08. Материалы для аддитивного производства. Запись вебинара от 16.02.2016 - https://youtu.be/GG7HKhUepxo
09. Необычные технологии 3D печати. Запись вебинара от 17.02.2016 - https://youtu.be/wkGj1oPXZqw
10. Сравнение технологий FDM, SLS, SLA. Запись вебинара от 19.02.2016 - https://youtu.be/qSXBeKt-v5s
11. Программное обеспечение для создания и проектирования 3D моделей. Запись вебинара от 20.02.2016 - https://youtu.be/sA_UxUxm-s4
12. Форматы файлов для 3D печати. Запись вебинара от 25.02.2016 - https://youtu.be/ISdNaR-WhCM
13. Расходные материалы для FDM печати. Запись вебинара от 26.02.2016 - https://youtu.be/_v7gDTtbY-E
3d моделирование и 3d печать в создании косплеев. Часть 1 -https://youtu.be/c5TrWHwXcjg
3d моделирование и 3d печать в создании косплеев. Часть 2. (Живой показ 3d моделирования в программах Autodesk MAYA, Autodesk INVENTOR, Pixologic ZBRUSH). -https://youtu.be/Y4mkIQMT21o
Как работать в программе Fusion 360. Запись вебинара от 24.11.15 - https://youtu.be/hHXHiboMyaU
Как просто 3d моделировать монстров и роботов в стиле Бионикл. - https://youtu.be/s1aA3C_sjJE
- published: 13 Feb 2016
- views: 283
3D modeling for 3D printing
- Order: Reorder
- Duration: 44:13
- Updated: 17 Jun 2013
- views: 10773
Google Tech Talk
May 17, 2013
(more info below)
Presented by Vladimir Bulatov.
ABSTRACT
We discuss technical challenges of creation of 3D printable models and...
Google Tech Talk
May 17, 2013
(more info below)
Presented by Vladimir Bulatov.
ABSTRACT
We discuss technical challenges of creation of 3D printable models and what Shapeways team is doing to help developers and regular users to create unique and customizable 3D pieces. In particular we will pay attention to use of AbBab3D - open source software for 3D voxel based modeling library developed by Shapeways.
About the Speaker: Vladimir Bulatov, PhD.
Prior of joining Shapeways in 2012 as 3D graphics research scientist Vladimir has been doing academic research in theoretical physics at St. Petersburg University and Imperial College and developing software for non visual access to scientific information at ViewPlus Technologies. He also runs his own business of making mathematically inspired sculptures and jewelry.
https://wn.com/3D_Modeling_For_3D_Printing
Google Tech Talk
May 17, 2013
(more info below)
Presented by Vladimir Bulatov.
ABSTRACT
We discuss technical challenges of creation of 3D printable models and what Shapeways team is doing to help developers and regular users to create unique and customizable 3D pieces. In particular we will pay attention to use of AbBab3D - open source software for 3D voxel based modeling library developed by Shapeways.
About the Speaker: Vladimir Bulatov, PhD.
Prior of joining Shapeways in 2012 as 3D graphics research scientist Vladimir has been doing academic research in theoretical physics at St. Petersburg University and Imperial College and developing software for non visual access to scientific information at ViewPlus Technologies. He also runs his own business of making mathematically inspired sculptures and jewelry.
- published: 17 Jun 2013
- views: 10773
Lifecycle Approach to API Process Validation
- Order: Reorder
- Duration: 1:01:08
- Updated: 26 Nov 2014
- views: 9527
The goal of API process validation is to ensure the reliable production of high-quality active pharmaceutical ingredients from development through commercializa...
The goal of API process validation is to ensure the reliable production of high-quality active pharmaceutical ingredients from development through commercialization. The product lifecycle approach established in FDA's 2011 Process Validation Guidance requires different validation activities during the process design and process qualification stages, as well as continued process verification throughout the life of the commercial process.
The process validation needs for pre-qualification activities and ongoing process verification can be daunting, especially for small and medium-size pharmaceutical companies. In this webinar, experts on API process validation outline the key requirements for development of a phase appropriate manufacturing plan including regulatory requirements, data collection, specification development, critical process parameters, sampling plans, and analytical method validation.
Key Learning Objectives:
* Understand the regulatory expectations at each clinical phase.
* Determine the key validation aspects of API manufacturing including critical process parameters.
* Identify analytical and stability needs as the API advances in the clinic.
Moderator:
Rita Peters
Editorial Director
Pharmaceutical Technology
Speakers:
Paul Wrezel, Ph.D.
Director of Analytical Method Development
Regis Technologies
Bikash Chatterjee
President and Chief Technology Officer
Pharmatech Associates Inc.
Paul L. Pluta, PhD
Editor-in-Chief
Journal of GXP Compliance and Journal of Validation Technology
https://wn.com/Lifecycle_Approach_To_Api_Process_Validation
The goal of API process validation is to ensure the reliable production of high-quality active pharmaceutical ingredients from development through commercialization. The product lifecycle approach established in FDA's 2011 Process Validation Guidance requires different validation activities during the process design and process qualification stages, as well as continued process verification throughout the life of the commercial process.
The process validation needs for pre-qualification activities and ongoing process verification can be daunting, especially for small and medium-size pharmaceutical companies. In this webinar, experts on API process validation outline the key requirements for development of a phase appropriate manufacturing plan including regulatory requirements, data collection, specification development, critical process parameters, sampling plans, and analytical method validation.
Key Learning Objectives:
* Understand the regulatory expectations at each clinical phase.
* Determine the key validation aspects of API manufacturing including critical process parameters.
* Identify analytical and stability needs as the API advances in the clinic.
Moderator:
Rita Peters
Editorial Director
Pharmaceutical Technology
Speakers:
Paul Wrezel, Ph.D.
Director of Analytical Method Development
Regis Technologies
Bikash Chatterjee
President and Chief Technology Officer
Pharmatech Associates Inc.
Paul L. Pluta, PhD
Editor-in-Chief
Journal of GXP Compliance and Journal of Validation Technology
- published: 26 Nov 2014
- views: 9527
Let’s Talk Future Materials: game changers for industry
- Order: Reorder
- Duration: 35:03
- Updated: 21 Nov 2016
- views: 27156
http://www.skf.com/group/our-company/letstalk/futurematerials/index.html
This film is subtitled in 7 languages.
The number of new materials and products being...
http://www.skf.com/group/our-company/letstalk/futurematerials/index.html
This film is subtitled in 7 languages.
The number of new materials and products being researched for industry has exploded over the last 20 years. And so has the demand. This is drastically changing the role of industrial designers and maintenance engineers.
New materials technology experts on the Let’s Talk panel provide insights into how these materials will affect industry in the coming years. Hear from polymer expert Professor Theo Dingemans, metallurgy specialist Professor Harry Bhadeshia, steels specialist Martin Rawson from Rolls-Royce and metallurgist Steven Lane from SKF.
Want to learn more? Watch the video. Here are the different topics covered:
1) Steel industry status – its current role and new steel research
2) Materials technology - why alternative materials are needed, where they’re used, benefits
3) Industry and academia – closing the gap on collaboration
4) Game changers for designers – 3D printing, mass-customization, other materials engineering
5) Sustainability – life cycle of components, reuse of ceramics
6) 5-10 year vision – future of steel, alloys, ceramics, polymers
7) Q&A; – recycling & refurbishment, reducing weight of steel, bottom-up manufacturing
Share your knowledge. Spark conversations.
#LetsTalkFutureMaterials
SKF is changing the world through knowledge and engineering. We started in 1907 as a bearing company, but today we make everything from lubrication systems to mechatronics. You can find our products & solutions in almost anything that rolls or moves, from space shuttles to skateboards.
*Subscribe:
Subscribe to our YouTube channel and like us on Facebook http://www.facebook.com/SKFGroup for daily updates.
For more information, please visit http://www.skf.com
https://wn.com/Let’S_Talk_Future_Materials_Game_Changers_For_Industry
http://www.skf.com/group/our-company/letstalk/futurematerials/index.html
This film is subtitled in 7 languages.
The number of new materials and products being researched for industry has exploded over the last 20 years. And so has the demand. This is drastically changing the role of industrial designers and maintenance engineers.
New materials technology experts on the Let’s Talk panel provide insights into how these materials will affect industry in the coming years. Hear from polymer expert Professor Theo Dingemans, metallurgy specialist Professor Harry Bhadeshia, steels specialist Martin Rawson from Rolls-Royce and metallurgist Steven Lane from SKF.
Want to learn more? Watch the video. Here are the different topics covered:
1) Steel industry status – its current role and new steel research
2) Materials technology - why alternative materials are needed, where they’re used, benefits
3) Industry and academia – closing the gap on collaboration
4) Game changers for designers – 3D printing, mass-customization, other materials engineering
5) Sustainability – life cycle of components, reuse of ceramics
6) 5-10 year vision – future of steel, alloys, ceramics, polymers
7) Q&A; – recycling & refurbishment, reducing weight of steel, bottom-up manufacturing
Share your knowledge. Spark conversations.
#LetsTalkFutureMaterials
SKF is changing the world through knowledge and engineering. We started in 1907 as a bearing company, but today we make everything from lubrication systems to mechatronics. You can find our products & solutions in almost anything that rolls or moves, from space shuttles to skateboards.
*Subscribe:
Subscribe to our YouTube channel and like us on Facebook http://www.facebook.com/SKFGroup for daily updates.
For more information, please visit http://www.skf.com
- published: 21 Nov 2016
- views: 27156
Well To Well tracer tests for reservoir characterisation and measurement of EOR effectiveness
- Order: Reorder
- Duration: 1:04:30
- Updated: 12 Apr 2016
- views: 943
Learn how chemical tracer technology can enable you to optimise development plans to increase reservoir production and reduce costs. Adding chemical tracer tech...
Learn how chemical tracer technology can enable you to optimise development plans to increase reservoir production and reduce costs. Adding chemical tracer technology to your reservoir surveillance toolkit can enable you to gather vital oil and water in-flow data from your lower completion, with no costly intervention; saving time and money by building up a long-term and continuous picture of your wells’ production performance.
https://wn.com/Well_To_Well_Tracer_Tests_For_Reservoir_Characterisation_And_Measurement_Of_Eor_Effectiveness
Learn how chemical tracer technology can enable you to optimise development plans to increase reservoir production and reduce costs. Adding chemical tracer technology to your reservoir surveillance toolkit can enable you to gather vital oil and water in-flow data from your lower completion, with no costly intervention; saving time and money by building up a long-term and continuous picture of your wells’ production performance.
- published: 12 Apr 2016
- views: 943
QFD and ISO 9000
- Order: Reorder
- Duration: 56:11
- Updated: 02 Jan 2012
- views: 7379
Six Sigma by Dr. T. P. Bagchi , Department of Management, IIT Kharagpur. For more details on NPTEL visit http://nptel.iitm.ac.in
Six Sigma by Dr. T. P. Bagchi , Department of Management, IIT Kharagpur. For more details on NPTEL visit http://nptel.iitm.ac.in
https://wn.com/Qfd_And_Iso_9000
Six Sigma by Dr. T. P. Bagchi , Department of Management, IIT Kharagpur. For more details on NPTEL visit http://nptel.iitm.ac.in
- published: 02 Jan 2012
- views: 7379
Martin Fowler in Barcelona, by ThoughtWorks
- Order: Reorder
- Duration: 2:33:55
- Updated: 14 Jun 2017
- views: 5112
Software Design in the 21st Century
===================================
https://www.thoughtworks.com/
In the last decade or so we've seen a number of new ideas ...
Software Design in the 21st Century
===================================
https://www.thoughtworks.com/
In the last decade or so we've seen a number of new ideas added to the mix to help us effectively design our software. Patterns help us capture the solutions and rationale for using them. Refactoring allows us to alter the design of a system after the code is written. Agile methods, in particular Extreme Programming, give us a highly iterative and evolutionary approach which is particularly well suited to changing requirements and environments. Martin Fowler has been a leading voice in these techniques and will give a suite of short talks featuring various aspects of how these and other developments affect our software development.
https://wn.com/Martin_Fowler_In_Barcelona,_By_Thoughtworks
Software Design in the 21st Century
===================================
https://www.thoughtworks.com/
In the last decade or so we've seen a number of new ideas added to the mix to help us effectively design our software. Patterns help us capture the solutions and rationale for using them. Refactoring allows us to alter the design of a system after the code is written. Agile methods, in particular Extreme Programming, give us a highly iterative and evolutionary approach which is particularly well suited to changing requirements and environments. Martin Fowler has been a leading voice in these techniques and will give a suite of short talks featuring various aspects of how these and other developments affect our software development.
- published: 14 Jun 2017
- views: 5112
GOTO 2012 • The Browser is Dead • Dan North
- Order: Reorder
- Duration: 50:05
- Updated: 20 Mar 2013
- views: 20471
This presentation was recorded at GOTO Aarhus 2012
http://gotocon.com
Dan North - Agile Troublemaker, Developer, Originator of BDD
ABSTRACT
Three years ago I ...
This presentation was recorded at GOTO Aarhus 2012
http://gotocon.com
Dan North - Agile Troublemaker, Developer, Originator of BDD
ABSTRACT
Three years ago I had never written a browser application. I had written plenty of web apps, but really I was coding like it's 1999. And did I mention I'm useless at design? So I was writing ugly web apps like it's 1999!
Then I started working with a rather unusual programmer who was writing front office trading apps - traditionally the domain of rich desktop clients - in a browser. In a browser! Surely it would be too slow? And the user experience would suck? But it wasn't. And it didn't. Because the browser isn't just a browser any more.
Three years on I can get from zero to functional faster than I ever thought possible. I can create feature-rich, good-looking apps with zero desktop deployment. I've never felt so empowered by a technology as I do by html5 and modern web development. I'm still useless at design but now it's much less obvious!
In this session I'll show you how to get up and running in record time, and more importantly how to harness this powerful new platform. The browser is dead, long live the browser.
https://twitter.com/gotocon
https://www.facebook.com/GOTOConference
http://gotocon.com
https://wn.com/Goto_2012_•_The_Browser_Is_Dead_•_Dan_North
This presentation was recorded at GOTO Aarhus 2012
http://gotocon.com
Dan North - Agile Troublemaker, Developer, Originator of BDD
ABSTRACT
Three years ago I had never written a browser application. I had written plenty of web apps, but really I was coding like it's 1999. And did I mention I'm useless at design? So I was writing ugly web apps like it's 1999!
Then I started working with a rather unusual programmer who was writing front office trading apps - traditionally the domain of rich desktop clients - in a browser. In a browser! Surely it would be too slow? And the user experience would suck? But it wasn't. And it didn't. Because the browser isn't just a browser any more.
Three years on I can get from zero to functional faster than I ever thought possible. I can create feature-rich, good-looking apps with zero desktop deployment. I've never felt so empowered by a technology as I do by html5 and modern web development. I'm still useless at design but now it's much less obvious!
In this session I'll show you how to get up and running in record time, and more importantly how to harness this powerful new platform. The browser is dead, long live the browser.
https://twitter.com/gotocon
https://www.facebook.com/GOTOConference
http://gotocon.com
- published: 20 Mar 2013
- views: 20471
Eleaf iStick Pico 25 w/Ello tank - Vape Don't Smoke Reviews
- Order: Reorder
- Duration: 24:54
- Updated: 18 May 2017
- views: 10953
The iStick Pico 25 ingeniously packs a big 0.91-inch screen that offers a concise and clear interface, 2A quick charge capability and upgradeable firmware with ...
The iStick Pico 25 ingeniously packs a big 0.91-inch screen that offers a concise and clear interface, 2A quick charge capability and upgradeable firmware with preheat function in a compact, stylish yet powerful package. Powered by single 18650 battery, the iStick Pico 25 is capable of outputting a maximum power of 85W and can handle various tanks up to 25mm diameter. With a compact size, you can hold it in the palm, much more convenient for usage and portability.
ELLO clearomizer features:
Convenient retractable top fill system: To fill the ELLO tank, you just slide the drip tip back and it reveals the fill port, which is quite easy to use and works very well.
Glass tank
E-liquid capacity: 2ml
Dual air inlets with optimal airflow: The dual air inlets allow optimal airflow for great vapor production. And the airflow is adjustable by turning the airflow control ring.
HW coils for big clouds and optimal flavor: The ELLO comes with the HW coils: HW1 Single-Cylinder 0.2ohm Head, HW2 Dual-Cylinder 0.3ohm Head and HW3 Triple-Cylinder 0.2ohm Head, providing you with different vaping experience.
HW1: 0.2ohm SS316L 40-80W / Best wattage: 50-65W
HW2: 0.3ohm Kanthal 30-70W / Best wattage: 45-60W
HW3: 0.2ohm Kanthal 50-130W / Best wattage: 70-90W
510 threading connection
25mm overall diameter
iStick Pico 25 85W mod features:
Variable wattage: 1-85W
Maximum charging current: 2A
Maximum output current: 50A
Output mode: VW/Bypass/TC(Ni,Ti,SS,TCR-M1,M2,M3) mode
Resistance range: 0.05-1.5ohm (TC modes) / 0.1-3.5ohm (VW mode)
Big 0.91'' screen with optional interfaces: The iStick Pico 25 features a big 0.91'' screen that offers concise and clear interfaces. And there are three switchable interfaces for you to choose the one you’re most accustomed to.
High compatibility: The iStick Pico 25 can handle various tanks up to 25mm diameter.
2A quick charge capability: With a maximum charging current of 2A, the battery in the iStick Pico 25 can be fully charged much more quickly.
Upgradeable firmware with preheat function: Preheat function allows the device to quickly heat up the coil at a higher wattage, providing you with a nice vaping experience. And the firmware is upgradeable to be always the latest.
Dual circuit protection: The circuit protection system has both software and hardware battery protections of over-charging, over-current and over-discharging.
510 threading connection
Powered by 1*18650 battery (not included)
Continuous discharge current should be above 25A
Functions of micro-USB port: the 18650 battery can be charged in the iStick Pico 25 through the side USB port via wall adapter or computer or charged with an external battery charger.
CHECK OUT ELEAF HERE
http://www.eleafworld.com/istick-pico-25/
VENDORS: If your looking for your product to be reviewed in a professional manner email me : vapedontsmoke82@gmail.com
Join Vape Dont Smoke on these social media sites
check us out on twitter: https://twitter.com/vapedontsmoke82
Vaping Underground - http://vapingunderground.com/search/15068993/
Planet of the Vapes - https://www.planetofthevapes.co.uk/forums/search/2219224/
check us out on Facebook: https://www.facebook.com/groups/vapedontsmoke
https://wn.com/Eleaf_Istick_Pico_25_W_Ello_Tank_Vape_Don't_Smoke_Reviews
The iStick Pico 25 ingeniously packs a big 0.91-inch screen that offers a concise and clear interface, 2A quick charge capability and upgradeable firmware with preheat function in a compact, stylish yet powerful package. Powered by single 18650 battery, the iStick Pico 25 is capable of outputting a maximum power of 85W and can handle various tanks up to 25mm diameter. With a compact size, you can hold it in the palm, much more convenient for usage and portability.
ELLO clearomizer features:
Convenient retractable top fill system: To fill the ELLO tank, you just slide the drip tip back and it reveals the fill port, which is quite easy to use and works very well.
Glass tank
E-liquid capacity: 2ml
Dual air inlets with optimal airflow: The dual air inlets allow optimal airflow for great vapor production. And the airflow is adjustable by turning the airflow control ring.
HW coils for big clouds and optimal flavor: The ELLO comes with the HW coils: HW1 Single-Cylinder 0.2ohm Head, HW2 Dual-Cylinder 0.3ohm Head and HW3 Triple-Cylinder 0.2ohm Head, providing you with different vaping experience.
HW1: 0.2ohm SS316L 40-80W / Best wattage: 50-65W
HW2: 0.3ohm Kanthal 30-70W / Best wattage: 45-60W
HW3: 0.2ohm Kanthal 50-130W / Best wattage: 70-90W
510 threading connection
25mm overall diameter
iStick Pico 25 85W mod features:
Variable wattage: 1-85W
Maximum charging current: 2A
Maximum output current: 50A
Output mode: VW/Bypass/TC(Ni,Ti,SS,TCR-M1,M2,M3) mode
Resistance range: 0.05-1.5ohm (TC modes) / 0.1-3.5ohm (VW mode)
Big 0.91'' screen with optional interfaces: The iStick Pico 25 features a big 0.91'' screen that offers concise and clear interfaces. And there are three switchable interfaces for you to choose the one you’re most accustomed to.
High compatibility: The iStick Pico 25 can handle various tanks up to 25mm diameter.
2A quick charge capability: With a maximum charging current of 2A, the battery in the iStick Pico 25 can be fully charged much more quickly.
Upgradeable firmware with preheat function: Preheat function allows the device to quickly heat up the coil at a higher wattage, providing you with a nice vaping experience. And the firmware is upgradeable to be always the latest.
Dual circuit protection: The circuit protection system has both software and hardware battery protections of over-charging, over-current and over-discharging.
510 threading connection
Powered by 1*18650 battery (not included)
Continuous discharge current should be above 25A
Functions of micro-USB port: the 18650 battery can be charged in the iStick Pico 25 through the side USB port via wall adapter or computer or charged with an external battery charger.
CHECK OUT ELEAF HERE
http://www.eleafworld.com/istick-pico-25/
VENDORS: If your looking for your product to be reviewed in a professional manner email me : vapedontsmoke82@gmail.com
Join Vape Dont Smoke on these social media sites
check us out on twitter: https://twitter.com/vapedontsmoke82
Vaping Underground - http://vapingunderground.com/search/15068993/
Planet of the Vapes - https://www.planetofthevapes.co.uk/forums/search/2219224/
check us out on Facebook: https://www.facebook.com/groups/vapedontsmoke
- published: 18 May 2017
- views: 10953
Review: Dent 2 by Unfiltered Audio
- Order: Reorder
- Duration: 22:46
- Updated: 23 Oct 2017
- views: 522
Download Links & Learn More...
http://www.joshuacasper.com/tutorials/dent-2-by-unfiltered-audio/
Dent 2 combines analog overdrive with digital destruction, w...
Download Links & Learn More...
http://www.joshuacasper.com/tutorials/dent-2-by-unfiltered-audio/
Dent 2 combines analog overdrive with digital destruction, wave shaping, bit crushing, circuit bending, wave set processing & modulation.
Dent 2 is the bigger brother on Indent 2 - which comes included with every purchase of Dent 2
Where Indent 2 is designed to saturate, distort & modulate, Dent 2 is unapologetically a digital waveform work station designed to give you complete control over the audio wave cycle.
Watch the Video Review
Signal Path
Sample Reduction Engine
Input Gain
Wave Shaper
Output Gain
Trim
Bit Crusher
(1a) Filter (Can be placed before the Input Gain)
DC Block
Sound Shaping
Complex Mode (10 algorithms and 3 clipping stages)
Mix
Automatic Gain Compensation
Trim
Wave Set Processor
Modulation Engine
Conclusion
Dent 2 is the plugin for you if you want to distort and saturate the input of your signal whilst having full control over the output gain
If you want want a bit crusher and sample reduction engine, Dent has 6 different algorithms to choose from.
Dent is the only plugin with a Wave Set Processor to randomise your distortion controls or create cable drop effects.
It you want a wave shaper with unique distortion methods other than the traditional input gain and digital bit crushing - than Dent is for you.
If you want to see how your waveform is affected and apply patchable modulation to any parameter within Dent - than Dent 2 is for you.
Clip Modes: Chooses how the signal is treated when its amplitude exceeds a threshold. There are two clippers in Indent: one after the In Gain, and one after the Out Gain.
Hard Clip: If the signal’s amplitude exceeds +/- 1.0, it is simply clipped to that boundary. This
is an aggressive, digital-sounding form of distortion.
Soft Clip: The signal is saturated using a parabolic equation. This will actually affect the
sound of the entire signal in a subtle way. This clipping is more pleasant and analog-
sounding.
Wavefold: Signals that exceed the threshold are “folded” around the threshold. There is
more sophisticated shaping at play here, but essentially this can change the perceived frequency of the sound. A great way to hear this is to use a simple sine wave as an input, then increase the gain on the input and outputs.
Overfold: A combination of wavefolding and overdrive. Try this mode out on bass frequency sawtooth waves!
Harsh Fold: A much more brutal, digital-sounding implementation of wavefolding.
Distortion: A more traditional distortion algorithm. Excellent for guitars.
Tube: A partially rectified saturator that greatly attenuates negative components of signals.
Tape: A modified soft clipper with a parabolic equation that more closely matches the
saturation behavior of tape.
Gloubi: “Gloubi-boulga” waveshaper.
Cubic: The signal is multiplied by itself three times.
Key Features
Multimode bitcrusher: 6 unique modes, including CRISPR, Bent, XOR, AND, and standard bitcrushing. All five modes are continuous and non-stepped, giving you the widest possible range of sounds.
Multimode clipper: 4 clipping flavors, from digital (hard clipping) to analog (soft clipping) and futuristic (wavefolding).
Probabilistic Wave set processing: Turn Dent’s distortion features on and off at zero-crossings to create pulsating grit, interference patterns, and cable dropouts.
Variable rectification: Continuously morph between full- and half-wave rectification, along with all of the timbres in between!
Resonant Multimode Filter: This filter packs some serious tone, from liquid cutoffs to screaming resonance.
Automatic Gain Compensation.
2x/4x Oversampling.
------------------------------------------------------------------------------
Joshua Casper Online:
http://www.joshuacasper.com
http://www.facebook.com/DJJoshuaCasper
http://soundcloud.com/joshuacasper
http://twitter.com/joshuacasper
https://wn.com/Review_Dent_2_By_Unfiltered_Audio
Download Links & Learn More...
http://www.joshuacasper.com/tutorials/dent-2-by-unfiltered-audio/
Dent 2 combines analog overdrive with digital destruction, wave shaping, bit crushing, circuit bending, wave set processing & modulation.
Dent 2 is the bigger brother on Indent 2 - which comes included with every purchase of Dent 2
Where Indent 2 is designed to saturate, distort & modulate, Dent 2 is unapologetically a digital waveform work station designed to give you complete control over the audio wave cycle.
Watch the Video Review
Signal Path
Sample Reduction Engine
Input Gain
Wave Shaper
Output Gain
Trim
Bit Crusher
(1a) Filter (Can be placed before the Input Gain)
DC Block
Sound Shaping
Complex Mode (10 algorithms and 3 clipping stages)
Mix
Automatic Gain Compensation
Trim
Wave Set Processor
Modulation Engine
Conclusion
Dent 2 is the plugin for you if you want to distort and saturate the input of your signal whilst having full control over the output gain
If you want want a bit crusher and sample reduction engine, Dent has 6 different algorithms to choose from.
Dent is the only plugin with a Wave Set Processor to randomise your distortion controls or create cable drop effects.
It you want a wave shaper with unique distortion methods other than the traditional input gain and digital bit crushing - than Dent is for you.
If you want to see how your waveform is affected and apply patchable modulation to any parameter within Dent - than Dent 2 is for you.
Clip Modes: Chooses how the signal is treated when its amplitude exceeds a threshold. There are two clippers in Indent: one after the In Gain, and one after the Out Gain.
Hard Clip: If the signal’s amplitude exceeds +/- 1.0, it is simply clipped to that boundary. This
is an aggressive, digital-sounding form of distortion.
Soft Clip: The signal is saturated using a parabolic equation. This will actually affect the
sound of the entire signal in a subtle way. This clipping is more pleasant and analog-
sounding.
Wavefold: Signals that exceed the threshold are “folded” around the threshold. There is
more sophisticated shaping at play here, but essentially this can change the perceived frequency of the sound. A great way to hear this is to use a simple sine wave as an input, then increase the gain on the input and outputs.
Overfold: A combination of wavefolding and overdrive. Try this mode out on bass frequency sawtooth waves!
Harsh Fold: A much more brutal, digital-sounding implementation of wavefolding.
Distortion: A more traditional distortion algorithm. Excellent for guitars.
Tube: A partially rectified saturator that greatly attenuates negative components of signals.
Tape: A modified soft clipper with a parabolic equation that more closely matches the
saturation behavior of tape.
Gloubi: “Gloubi-boulga” waveshaper.
Cubic: The signal is multiplied by itself three times.
Key Features
Multimode bitcrusher: 6 unique modes, including CRISPR, Bent, XOR, AND, and standard bitcrushing. All five modes are continuous and non-stepped, giving you the widest possible range of sounds.
Multimode clipper: 4 clipping flavors, from digital (hard clipping) to analog (soft clipping) and futuristic (wavefolding).
Probabilistic Wave set processing: Turn Dent’s distortion features on and off at zero-crossings to create pulsating grit, interference patterns, and cable dropouts.
Variable rectification: Continuously morph between full- and half-wave rectification, along with all of the timbres in between!
Resonant Multimode Filter: This filter packs some serious tone, from liquid cutoffs to screaming resonance.
Automatic Gain Compensation.
2x/4x Oversampling.
------------------------------------------------------------------------------
Joshua Casper Online:
http://www.joshuacasper.com
http://www.facebook.com/DJJoshuaCasper
http://soundcloud.com/joshuacasper
http://twitter.com/joshuacasper
- published: 23 Oct 2017
- views: 522
Eicke R. Weber: Photovoltaics Moving into the Terawatt Age
- Order: Reorder
- Duration: 34:42
- Updated: 28 Aug 2017
- views: 114
A plenary talk from SPIE Optics + Photonics 2017 - http://spie.org/op
In the last few years, PV electricity has become cost-competitive with electricity produc...
A plenary talk from SPIE Optics + Photonics 2017 - http://spie.org/op
In the last few years, PV electricity has become cost-competitive with electricity produced by conventional sources, notes Eicke Weber, Berkeley Education Alliance for Research in Singapore and University of California, Berkeley, in this plenary talk.
Global PV production capacity will double within the next five years to 100-120 GWp/a, bringing PV installations into the terawatt range. A key factor for this growth will be continuous technology advances aimed at higher efficiencies at reduced cost.
In addition, cell efficiency will be even more important than lowest cost, to optimize energy harvest from a given area. Crystalline silicon technology currently represents 90% of the global PV market. This technology is approaching a ceiling of 29% efficiency for a single-bandgap semiconductor.
Weber discusses new approaches for higher efficiencies requiring heterojunctions, including heterojunctions on silicon, allowing to combine well-established large-scale silicon PV technology with new technologies, such as low-cost III/V or Perovskite layers.
Weber is Director/CEO of the Berkeley Education Alliance for Research in Singapore (BEARS). He has also served as Director of the Fraunhofer Institute for Solar Energy Systems ISE in Freiburg, Germany. From 1983-2006 he served on the faculty of the Department of Materials Science and Engineering of the University of California, Berkeley. He obtained his doctorate in Physics from the University of Cologne, Germany.
https://wn.com/Eicke_R._Weber_Photovoltaics_Moving_Into_The_Terawatt_Age
A plenary talk from SPIE Optics + Photonics 2017 - http://spie.org/op
In the last few years, PV electricity has become cost-competitive with electricity produced by conventional sources, notes Eicke Weber, Berkeley Education Alliance for Research in Singapore and University of California, Berkeley, in this plenary talk.
Global PV production capacity will double within the next five years to 100-120 GWp/a, bringing PV installations into the terawatt range. A key factor for this growth will be continuous technology advances aimed at higher efficiencies at reduced cost.
In addition, cell efficiency will be even more important than lowest cost, to optimize energy harvest from a given area. Crystalline silicon technology currently represents 90% of the global PV market. This technology is approaching a ceiling of 29% efficiency for a single-bandgap semiconductor.
Weber discusses new approaches for higher efficiencies requiring heterojunctions, including heterojunctions on silicon, allowing to combine well-established large-scale silicon PV technology with new technologies, such as low-cost III/V or Perovskite layers.
Weber is Director/CEO of the Berkeley Education Alliance for Research in Singapore (BEARS). He has also served as Director of the Fraunhofer Institute for Solar Energy Systems ISE in Freiburg, Germany. From 1983-2006 he served on the faculty of the Department of Materials Science and Engineering of the University of California, Berkeley. He obtained his doctorate in Physics from the University of Cologne, Germany.
- published: 28 Aug 2017
- views: 114
David's Thesis Defense
- Order: Reorder
- Duration: 1:25:06
- Updated: 19 Dec 2014
- views: 184
I will be defending my thesis: "Alloyed and Chemically Modified Metal Cataylsts for the Electrochemical Reduction of CO2 on Friday, December 19th at 9am (PST). ...
I will be defending my thesis: "Alloyed and Chemically Modified Metal Cataylsts for the Electrochemical Reduction of CO2 on Friday, December 19th at 9am (PST). It will take place at Stanford's Y2E2 building, room 111, and there will be breakfasty refreshments.
Otherwise, there is a link to a livestream that will be turned on just before 9am. You can watch it live, and if you like it enough (or if you can't watch it live due to work etc.) you can watch it again and again as the link will stay active as a youtube video!
https://wn.com/David's_Thesis_Defense
I will be defending my thesis: "Alloyed and Chemically Modified Metal Cataylsts for the Electrochemical Reduction of CO2 on Friday, December 19th at 9am (PST). It will take place at Stanford's Y2E2 building, room 111, and there will be breakfasty refreshments.
Otherwise, there is a link to a livestream that will be turned on just before 9am. You can watch it live, and if you like it enough (or if you can't watch it live due to work etc.) you can watch it again and again as the link will stay active as a youtube video!
- published: 19 Dec 2014
- views: 184
FIBRENAMICS: O Extraordinário Mundo das Fibras - Episódio 1 - O Mundo das Fibras
- Order: Reorder
- Duration: 28:35
- Updated: 09 Oct 2013
- views: 7887
SINOPSE: Indissociáveis de todos os capítulos da história da Humanidade, as fibras são assim dos materiais mais utilizados de sempre. Apesar de ter sido na natu...
SINOPSE: Indissociáveis de todos os capítulos da história da Humanidade, as fibras são assim dos materiais mais utilizados de sempre. Apesar de ter sido na natureza que inicialmente o Homem as descobriu, com o evoluir do tempo apareceram as primeiras fibras sintéticas e, após estas, fibras com propriedades inimagináveis. Que mais reserva o futuro para estes extraordinários materiais?
Um Projecto Fibrenamics: www.fibrenamics.com
FICHA TÉCNICA:
Coordenação Científica: Raul Fangueiro, Escola de Engenharia - Universidade do Minho
Equipa Fibrenamics: Carlos Almeida, Catarina Guise, Katherine Rosado, Rita Rebelo, Sílvia Carvalho
Guião: Hugo Manuel Correia
Imagem: Carlos Oliveira, Hélder Tavares, Joana Deusdado, José Lemos, Rui Costa, Sérgio Morgado, Tiago Mendes
Montagem: Joana Deusdado
Grafismo: Helena Duarte, José Lemos
Pós-produção Vídeo: José Lemos
Pós-produção Áudio: Paulo Pintado - Indústria Rock
Banda Sonora: bueno.sair.es - Indústria Rock
Locução: Hugo Manuel Correia
Produção: Mariana Viana
Copy Desk: Marta Coutinho
Direcção Geral: Daniel Deusdado - Farol de Ideias
Entidade Promotora: TecMinho -- Interface da Universidade do Minho
Financiado por: QREN, COMPETE, FEDER, Ciência Viva
COPYRIGHT
© Fibrenamics 2013
https://wn.com/Fibrenamics_O_Extraordinário_Mundo_Das_Fibras_Episódio_1_O_Mundo_Das_Fibras
SINOPSE: Indissociáveis de todos os capítulos da história da Humanidade, as fibras são assim dos materiais mais utilizados de sempre. Apesar de ter sido na natureza que inicialmente o Homem as descobriu, com o evoluir do tempo apareceram as primeiras fibras sintéticas e, após estas, fibras com propriedades inimagináveis. Que mais reserva o futuro para estes extraordinários materiais?
Um Projecto Fibrenamics: www.fibrenamics.com
FICHA TÉCNICA:
Coordenação Científica: Raul Fangueiro, Escola de Engenharia - Universidade do Minho
Equipa Fibrenamics: Carlos Almeida, Catarina Guise, Katherine Rosado, Rita Rebelo, Sílvia Carvalho
Guião: Hugo Manuel Correia
Imagem: Carlos Oliveira, Hélder Tavares, Joana Deusdado, José Lemos, Rui Costa, Sérgio Morgado, Tiago Mendes
Montagem: Joana Deusdado
Grafismo: Helena Duarte, José Lemos
Pós-produção Vídeo: José Lemos
Pós-produção Áudio: Paulo Pintado - Indústria Rock
Banda Sonora: bueno.sair.es - Indústria Rock
Locução: Hugo Manuel Correia
Produção: Mariana Viana
Copy Desk: Marta Coutinho
Direcção Geral: Daniel Deusdado - Farol de Ideias
Entidade Promotora: TecMinho -- Interface da Universidade do Minho
Financiado por: QREN, COMPETE, FEDER, Ciência Viva
COPYRIGHT
© Fibrenamics 2013
- published: 09 Oct 2013
- views: 7887
High End Computing and Scientific Visualization at NASA
- Order: Reorder
- Duration: 1:02:20
- Updated: 23 Jul 2007
- views: 5467
Google TechTalks
January 25, 2006
Dr. Rupak Biswas and Dr. Chris Henze
Dr. Rupak Biswas is currently the Acting Chief of the NASA Advanced Supercomputing (NAS...
Google TechTalks
January 25, 2006
Dr. Rupak Biswas and Dr. Chris Henze
Dr. Rupak Biswas is currently the Acting Chief of the NASA Advanced Supercomputing (NAS) Division at NASA Ames Research Center. Dr. Biswas received his Ph.D. in Computer Science from Rensselaer Polytechnic Institute in 1991 and has been at NASA ever since.
Chris Henze is the lead of the Visualization Group in the NASA Advanced Supercomputing (NAS) Division at Ames Research Center, in which capacity he supervises research and development activities in data analysis and visualization. Dr. Henze received his Ph.D. in computational biology from the University of Arizona in 1993.
https://wn.com/High_End_Computing_And_Scientific_Visualization_At_Nasa
Google TechTalks
January 25, 2006
Dr. Rupak Biswas and Dr. Chris Henze
Dr. Rupak Biswas is currently the Acting Chief of the NASA Advanced Supercomputing (NAS) Division at NASA Ames Research Center. Dr. Biswas received his Ph.D. in Computer Science from Rensselaer Polytechnic Institute in 1991 and has been at NASA ever since.
Chris Henze is the lead of the Visualization Group in the NASA Advanced Supercomputing (NAS) Division at Ames Research Center, in which capacity he supervises research and development activities in data analysis and visualization. Dr. Henze received his Ph.D. in computational biology from the University of Arizona in 1993.
- published: 23 Jul 2007
- views: 5467
Activated carbon
- Order: Reorder
- Duration: 31:23
- Updated: 01 Aug 2014
- views: 33841
Activated carbon, also called activated charcoal, activated coal, or carbo activatus, is a form of carbon processed to have small, low-volume pores that increas...
Activated carbon, also called activated charcoal, activated coal, or carbo activatus, is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption or chemical reactions. Activated is sometimes substituted with active.
Due to its high degree of microporosity, just one gram of activated carbon has a surface area in excess of 500 m2, as determined by gas adsorption. An activation level sufficient for useful application may be attained solely from high surface area; however, further chemical treatment often enhances adsorption properties.
This video is targeted to blind users.
Attribution:
Article text available under CC-BY-SA
Creative Commons image source in video
https://wn.com/Activated_Carbon
Activated carbon, also called activated charcoal, activated coal, or carbo activatus, is a form of carbon processed to have small, low-volume pores that increase the surface area available for adsorption or chemical reactions. Activated is sometimes substituted with active.
Due to its high degree of microporosity, just one gram of activated carbon has a surface area in excess of 500 m2, as determined by gas adsorption. An activation level sufficient for useful application may be attained solely from high surface area; however, further chemical treatment often enhances adsorption properties.
This video is targeted to blind users.
Attribution:
Article text available under CC-BY-SA
Creative Commons image source in video
- published: 01 Aug 2014
- views: 33841
Introduction to Bots | AI2
- Order: Reorder
- Duration: 1:05:38
- Updated: 17 Nov 2017
- views: 204
This session will feature the Language Cognitive Services, digging into natural language understanding and how Cognitive Services makes it easy for developers t...
This session will feature the Language Cognitive Services, digging into natural language understanding and how Cognitive Services makes it easy for developers to get started infusing AI into their apps today.
https://wn.com/Introduction_To_Bots_|_Ai2
- Playlist
- Chat
1:14
Carbon CLIP Animation
published: 17 Mar 2015
Carbon CLIP Animation
Carbon CLIP Animation
- Report rights infringement
- published: 17 Mar 2015
- views: 52605
1:00
Carbon3D CLIP technology demo 7X speed
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolution...
published: 17 Mar 2015
Carbon3D CLIP technology demo 7X speed
Carbon3D CLIP technology demo 7X speed
- Report rights infringement
- published: 17 Mar 2015
- views: 669698
1:27
Additive Manufacturing - Continuous Liquid Interface Production CLIP Technology
Additive Manufacturing - Continuous Liquid Interface Production (CLIP) Technology:
-------...
published: 08 Nov 2015
Additive Manufacturing - Continuous Liquid Interface Production CLIP Technology
Additive Manufacturing - Continuous Liquid Interface Production CLIP Technology
- Report rights infringement
- published: 08 Nov 2015
- views: 2710
10:47
What if 3D printing was 100x faster? | Joseph DeSimone
What we think of as 3D printing, says Joseph DeSimone, is really just 2D printing over and...
published: 19 Mar 2015
What if 3D printing was 100x faster? | Joseph DeSimone
What if 3D printing was 100x faster? | Joseph DeSimone
- Report rights infringement
- published: 19 Mar 2015
- views: 869258
0:46
Carbon3D's Super Fast 3D Printer Printing an Eiffel Tower
Carbon3D has just unveiled a groundbreaking new 3D printing process which could revolution...
published: 17 Mar 2015
Carbon3D's Super Fast 3D Printer Printing an Eiffel Tower
Carbon3D's Super Fast 3D Printer Printing an Eiffel Tower
- Report rights infringement
- published: 17 Mar 2015
- views: 1591062
1:00
3D printing technology ( continuous liquid interface production) - clip
published: 11 Jul 2017
3D printing technology ( continuous liquid interface production) - clip
3D printing technology ( continuous liquid interface production) - clip
- Report rights infringement
- published: 11 Jul 2017
- views: 308
0:44
What Is Continuous Liquid Interface Production (CLIP) 3D Printing?
Continuous Liquid Interface Production is a photochemical process that makes it possible t...
published: 26 Jun 2017
What Is Continuous Liquid Interface Production (CLIP) 3D Printing?
What Is Continuous Liquid Interface Production (CLIP) 3D Printing?
- Report rights infringement
- published: 26 Jun 2017
- views: 62
3:00
Continuous liquid interface production of 3D Objects Parte 1
published: 17 Mar 2015
Continuous liquid interface production of 3D Objects Parte 1
Continuous liquid interface production of 3D Objects Parte 1
- Report rights infringement
- published: 17 Mar 2015
- views: 8315
3:35
New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015
Breaking news! CLIP is a new technology that allows 3D printing to take place at a far gre...
published: 21 Mar 2015
New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015
New 3D Printing technology prints 25-100X faster! Carbon3D CLIP - 2015
- Report rights infringement
- published: 21 Mar 2015
- views: 14058
2:57
Additive Manufacturing at BMW Group
Additive Manufacturing at BMW Group
published: 18 Feb 2016
Additive Manufacturing at BMW Group
Additive Manufacturing at BMW Group
- Report rights infringement
- published: 18 Feb 2016
- views: 70260
0:56
Carbon M1 printer demo—High temp CE resin
This demo video illustrates four sterilizable stylette handles printing continuously in ou...
published: 02 Apr 2016
Carbon M1 printer demo—High temp CE resin
Carbon M1 printer demo—High temp CE resin
- Report rights infringement
- published: 02 Apr 2016
- views: 48361
8:00
NewPro3D (World's Fastest?) at CES 2016
Diego Castanon is part of the NewPro3D team. Their printer is CLIP's biggest (and fastest)...
published: 10 Feb 2016
NewPro3D (World's Fastest?) at CES 2016
NewPro3D (World's Fastest?) at CES 2016
- Report rights infringement
- published: 10 Feb 2016
- views: 161675
2:18
World's Fastest 3D Printer | Carbon M1 | CA
CARBON M1 | World's Fastest 3D Printer
Traditional approaches to additive manufacturing ...
published: 14 Jan 2017
World's Fastest 3D Printer | Carbon M1 | CA
World's Fastest 3D Printer | Carbon M1 | CA
- Report rights infringement
- published: 14 Jan 2017
- views: 5498
2:57
Continuous liquid interface production of 3D Objects Parte 2
published: 17 Mar 2015
Continuous liquid interface production of 3D Objects Parte 2
Continuous liquid interface production of 3D Objects Parte 2
- Report rights infringement
- published: 17 Mar 2015
- views: 2218
- Playlist
- Chat
24:02
A Future Fabricated with Light | Joe DeSimone | Carbon3D | CES 2016
The man behind one of the 3D printing industry's most recent breakthrough technologies, Jo...
published: 23 Mar 2016
A Future Fabricated with Light | Joe DeSimone | Carbon3D | CES 2016
A Future Fabricated with Light | Joe DeSimone | Carbon3D | CES 2016
- Report rights infringement
- published: 23 Mar 2016
- views: 2396
1:33:45
3D in Review 14 - 20 March, 2015 - "Carbon3D Clip - Just a Lot of Hot Oxygen?"
In this week in "3D in Review," we invite a number of UV resin based printing experts to c...
published: 20 Mar 2015
3D in Review 14 - 20 March, 2015 - "Carbon3D Clip - Just a Lot of Hot Oxygen?"
3D in Review 14 - 20 March, 2015 - "Carbon3D Clip - Just a Lot of Hot Oxygen?"
- Report rights infringement
- published: 20 Mar 2015
- views: 7830
1:00:22
3D Printing Bag Clip
Printing this bag clip to clip my bags
published: 19 Jun 2017
3D Printing Bag Clip
3D Printing Bag Clip
- Report rights infringement
- published: 19 Jun 2017
- views: 44
1:15:45
PC Perspective Podcast 341 - 03/19/15
http://pcper.com/podcast
Podcast topics of discussion:
Join our spam list to get notifie...
published: 20 Mar 2015
PC Perspective Podcast 341 - 03/19/15
PC Perspective Podcast 341 - 03/19/15
- Report rights infringement
- published: 20 Mar 2015
- views: 7200
1:04:10
06. Основы SLA технологии. Запись вебинара от 12.02.2016
Вебинар «Методы аддитивного производства. Технология SLA»
Ведущий вебинара: Ася Арутюнян...
published: 13 Feb 2016
06. Основы SLA технологии. Запись вебинара от 12.02.2016
06. Основы SLA технологии. Запись вебинара от 12.02.2016
- Report rights infringement
- published: 13 Feb 2016
- views: 283
44:13
3D modeling for 3D printing
Google Tech Talk
May 17, 2013
(more info below)
Presented by Vladimir Bulatov.
ABSTRACT
...
published: 17 Jun 2013
3D modeling for 3D printing
3D modeling for 3D printing
- Report rights infringement
- published: 17 Jun 2013
- views: 10773
1:01:08
Lifecycle Approach to API Process Validation
The goal of API process validation is to ensure the reliable production of high-quality ac...
published: 26 Nov 2014
Lifecycle Approach to API Process Validation
Lifecycle Approach to API Process Validation
- Report rights infringement
- published: 26 Nov 2014
- views: 9527
35:03
Let’s Talk Future Materials: game changers for industry
http://www.skf.com/group/our-company/letstalk/futurematerials/index.html
This film is sub...
published: 21 Nov 2016
Let’s Talk Future Materials: game changers for industry
Let’s Talk Future Materials: game changers for industry
- Report rights infringement
- published: 21 Nov 2016
- views: 27156
1:04:30
Well To Well tracer tests for reservoir characterisation and measurement of EOR effectiveness
Learn how chemical tracer technology can enable you to optimise development plans to incre...
published: 12 Apr 2016
Well To Well tracer tests for reservoir characterisation and measurement of EOR effectiveness
Well To Well tracer tests for reservoir characterisation and measurement of EOR effectiveness
- Report rights infringement
- published: 12 Apr 2016
- views: 943
56:11
QFD and ISO 9000
Six Sigma by Dr. T. P. Bagchi , Department of Management, IIT Kharagpur. For more details ...
published: 02 Jan 2012
QFD and ISO 9000
QFD and ISO 9000
- Report rights infringement
- published: 02 Jan 2012
- views: 7379
2:33:55
Martin Fowler in Barcelona, by ThoughtWorks
Software Design in the 21st Century
===================================
https://www.though...
published: 14 Jun 2017
Martin Fowler in Barcelona, by ThoughtWorks
Martin Fowler in Barcelona, by ThoughtWorks
- Report rights infringement
- published: 14 Jun 2017
- views: 5112
50:05
GOTO 2012 • The Browser is Dead • Dan North
This presentation was recorded at GOTO Aarhus 2012
http://gotocon.com
Dan North - Agile T...
published: 20 Mar 2013
GOTO 2012 • The Browser is Dead • Dan North
GOTO 2012 • The Browser is Dead • Dan North
- Report rights infringement
- published: 20 Mar 2013
- views: 20471
24:54
Eleaf iStick Pico 25 w/Ello tank - Vape Don't Smoke Reviews
The iStick Pico 25 ingeniously packs a big 0.91-inch screen that offers a concise and clea...
published: 18 May 2017
Eleaf iStick Pico 25 w/Ello tank - Vape Don't Smoke Reviews
Eleaf iStick Pico 25 w/Ello tank - Vape Don't Smoke Reviews
- Report rights infringement
- published: 18 May 2017
- views: 10953
22:46
Review: Dent 2 by Unfiltered Audio
Download Links & Learn More...
http://www.joshuacasper.com/tutorials/dent-2-by-unfiltered-...
published: 23 Oct 2017
Review: Dent 2 by Unfiltered Audio
Review: Dent 2 by Unfiltered Audio
- Report rights infringement
- published: 23 Oct 2017
- views: 522
A Future Fabricated with Light | Joe DeSimone | Ca...
3D in Review 14 - 20 March, 2015 - "Carbon3D Clip ...
3D Printing Bag Clip...
PC Perspective Podcast 341 - 03/19/15...
06. Основы SLA технологии. Запись вебинара от 12.0...
3D modeling for 3D printing...
Lifecycle Approach to API Process Validation...
Let’s Talk Future Materials: game changers for ind...
Well To Well tracer tests for reservoir characteri...
QFD and ISO 9000...
Martin Fowler in Barcelona, by ThoughtWorks...
GOTO 2012 • The Browser is Dead • Dan North...
Eleaf iStick Pico 25 w/Ello tank - Vape Don't Smok...
Review: Dent 2 by Unfiltered Audio...
Eicke R. Weber: Photovoltaics Moving into the Tera...
David's Thesis Defense...
FIBRENAMICS: O Extraordinário Mundo das Fibras - E...
High End Computing and Scientific Visualization at...
Activated carbon...
Introduction to Bots | AI2...
back
‘Potentially Hazardous Asteroid’ 3200 Phaethon Will Pass By Earth Sunday, And You Might Catch A Glimpse
Edit Newsweek 16 Dec 2017
On December 16, the asteroid 3200 Phaethon, a ‘potentially hazardous asteroid’ will be at its very closest to Earth, passing only 6.2 million miles away from our little blue planet. Don’t worry though, the asteroid is still completely safe and if the conditions are right you might even catch glimpse of it passing by Saturday night ... In addition, the asteroid is about half the size of the asteroid that may have wiped out the dinosaurs ... ....
back
Bernie Sanders: Trump tax cuts a barely disguised reward for billionaire donors
Edit The Guardian 16 Dec 2017
The Vermont senator tells the Guardian why the tax bill – which could become law next week – is the result of 40 years’ scheming by the Kochs and others. Bernie Sanders. Bernie Sanders. Trump tax cuts a barely disguised reward for billionaire donors. The Vermont senator tells the Guardian why the tax bill – which could become law next week – is the result of 40 years’ scheming by the Kochs and others. @edpilkington ... welcome to America ... ....
back
UN 'Shocked and Appalled' At Mass Execution of 38 ISIS Members in Iraq
Edit WorldNews.com 15 Dec 2017
The United Nations had harsh words for Iraq on Friday after the mass-hanging of 38 men at a prison, the largest number of executions in a single day for Baghdad since September, when 42 were put to death in the same prison, according to The Australian ... "We are deeply shocked and appalled at the mass execution on Thursday," United Nations human rights office spokeswoman Liz Throssell told reporters in Geneva ... ... -WN.com, Maureen Foody....
back
Nigeria troops arrest 400 plus Boko Haram fighters, families
Edit The Times of India 16 Dec 2017
MAIDUGURI (NIGERIA). Military authorities say Nigerian soldiers have arrested more than 400 people associated with the Boko Haram extremist group hiding on the islands of Lake Chad, including fighters, wives and children. The two-week operation netted the largest number of arrests of Boko Haram fighters in recent months in northeast Nigeria, Col Onyema Nwachukwu said. The operation included air and ground offensives ... ....
Morgan Spurlock’s TNT Series ‘Who Rules the World’ Halts Production
Edit Variety 16 Dec 2017
Production has stopped on the upcoming TNT unscripted series “Who Rules the World” following a public admission last week by executive producer Morgan Spurlock of past sexual misconduct. “Production on ‘Who Rules the World’ (working title) has been suspended until further review,” a TNT spokesperson said in a statement. In the early stages of production, […] ... ....
Jerusalem: Buy Local Products As Sign Of Protest
Edit Malaysian National News Agency 16 Dec 2017
"We don't want to merely say we want to boycott products manufactured by companies with interests in Israel, we also want to provide an alternative for Malaysians. "We give priority to our own products ......
FOCUS Locations Event Feeds Off Production Boom
Edit Variety 16 Dec 2017
The booming state of production, particularly in the U.K., emerged as key talking point at FOCUS, the London-based international locations conference, running Dec. 5-6. More than 170 companies from 61 countries exhibited at the event, including film commissions, location providers and production service companies. The growing demand for content, driven by tech giants such as […] ... ....
Fake products worth P522M found in Pasay warehouse
Edit Manila Bulletin 16 Dec 2017
By Betheena Unite Hundreds of boxes of fake products worth P522 million were recently uncovered inside a warehouse on Cuneta Avenue, Pasay City. The seized products, according to the Bureau... ....
Officials forecast increase in Bulgarian rapeseed production
Edit Topix 16 Dec 2017
SOFIA, BULGARIA The Bulgarian Ministry of Agriculture has increased the country's 2017-18 rapeseed production forecast by nearly 6% from an estimate earlier this year, to 460,000 tonnes, due to higher yields, according to a Dec ... but that is still 3.7% lower than the average yield in 2016-17, when total rapeseed production was 509,000 tonnes....
PM asks mathematics institute to apply technologies to boost production
Edit Vietnam News 16 Dec 2017
Prime Minister Nguyễn Xuân Phúc asked the Institute of Mathematics under the Việt Nam Academy of Science and Technology (VAST) to boost the application of technologies in production to increase labour productivity at a working session in Hà Nội on December 14 ... ....
Neda notes drop in Northern Mindanao 3rd quarter palay production
Edit Sun Star 16 Dec 2017
NORTHERN Mindanao's palay production for the third quarter this year has dropped by 6.74 percent to 200,698 metric tons as compared to 215,201 metric tons for the same quarter last year ... led the decline in palay production at 12.38 percent (25,673 metric tons), 9.04 percent (131,897 metric tons) and 0.02 percent (36,075 metric tons) respectively....
RSL trades for Brighton High product Taylor Peay, signs Homegrown Aaron Herrera
Edit Deseret News 16 Dec 2017
A local product with professional experience here as well as elsewhere in the MLS will be joining Real Salt Lake ... From 2014-2016, Peay appeared in seven matches for the Timbers and then saw action in 21 for the Monarchs last season, starting 18 ... Also on Friday, the team announced the signing of RSL Academy product Aaron Herrera, a defender who has played the last three seasons at the University of New Mexico ... ....
Saudi to levy 5% VAT fee on food products
Edit Gulf Daily News 16 Dec 2017
Food products will be subjected to the Value Added Tax (VAT) scheme, which will take effect on the 1st of January in Saudi Arabia....
Buying beauty products in Mumbai? Look carefully, MRP label might be fake, prices hiked
Edit Hindustan Times 16 Dec 2017
The next time you buy an expensive beauty product from a popular spa or salon, inspect the price tag carefully — you may spot irregularities ... The recent raids have uncovered popular salons and spas’ bid to sell products with undeclared maximum retail price (MRP) labels, manufacturer details, smudged MRP tags or fake MRP stickers....
Beef, miso among GI-protected products under Japan-EU EPA
Edit The Japan News 16 Dec 2017
The Yomiuri ShimbunThe Agriculture, Forestry and Fisheries Ministry on Friday revealed the agricultural products from Japan and the European Union that will be protected under geographical indication (GI) systems based on the economic partnership agreement they have concluded. The GI system protects specialty products with local brand names as intellectual property of a country....
- 1
- 2
- 3
- 4
- 5
- Next page »
