Star Prototype Enters New Stage of Growth with Rebrand to Star Rapid

Star Prototype today announces its rebrand to Star Rapid. The new name comes at a time when traditional manufacturing operations are being combined with technologies like 3D printing to create new development solutions and reflects the company's commitment to manufacture high-quality products.

Dremel Donates 70 3D Printers to Schools Nationwide in #LearnMakeGive Contest

Thirty-five schools, selected as winners through public voting, receive two Dremel Idea Builder 3D20 printers and filament.

Polar 3D Proud Supporter of the GE Additive Education Program

"We selected Polar because of their commitment to education, strength of curriculum that integrates 3D printing in Science, Technology, Engineering, Art and Math and the open Polar Cloud platform," said Greg Morris, Strategy & Growth Leader of GE Additive. "We are excited to watch the ecosystem grow and develop pipelines of future talent in additive manufacturing."

McLaren Racing Signs New Four-Year Partnership with Stratasys to Bring Additive Manufacturing to Formula 1

Legendary British Formula 1 team ramps up additive manufacturing and rapid prototyping program with Stratasys 3D printing solutions

Adidas reveals plans for 3D printing 'Speedfactory'

Corey Clarke for 3DPrintingIndustry:  Adidas is moving closer to a 3D printing shoe manufacturing revolution. As previously reported the sports shoe manufacturer used 3D printing to produce the Ultraboost Parley and 3D Runner releases in 2016. This year, Adidas are keen to up the tempo with their Speedfactory concept. Industrial factories where 3D printing and robotics manufacture sneakers on-demand are at the core of the plan. Manufacturing will also become localized, eliminating costs associated with logistics and supply chains. Large-scale production at German Speedfactory in Ansbach is set for mid-2017, with Adidas expecting to create 500,000 shoes a year in the future. While in the U.S, Adidas has announced plans to create a Speedfactory in Atlanta in late-2017.   Cont'd...

Asia Pacific's leading 3D printing trade show returns to Singapore this 14 - 15 February 2017

USA's Formlabs, Taiwan's DMP Electronics and Singapore's own Creatz3D Pte Ltd among international exhibitors

Rize to Introduce the New Rize™ One 3D Printer at SOLIDWORKS World 2017

Rize Inc., maker of the world's only industrial 3D printing technology capable of producing manufacturing and end-use parts on demand in the office or additive manufacturing lab, announced today that, for the first time, SOLIDWORKS World 2017 attendees will meet the new Rize One 3D printer first hand in Rize booth #406.

Indie Meets Indiegogo To Help Shape The Future of 3D Printing

Mumbai's Maher Soft Launches New Fully-Developed Industrial-Grade Desktop 3D Printer

ASU site of largest academic additive manufacturing center in the southwest US

Gail Overton for LaserFocusWorld:  By forming a partnership with Concept Laser (Grapevine, TX), Honeywell Aerospace (Phoenix, AZ), and Phoenix Analysis & Design Technologies (PADT; Tempe, AZ), the largest additive manufacturing (AM) research facility in the Southwest is now on the Polytechnic campus of the Polytechnic School at Arizona State University (ASU; Tempe, AZ). The 15,000 square foot center holds over $2 million of plastic, polymer, and 3D metal printing equipment and the Polytechnic School at ASU offers the only manufacturing engineering undergraduate degree in Arizona and is one of only 22 ABET accredited manufacturing engineering programs in the United States. The lab has a Concept Laser M2 cusing and Mlab cusing machine which are dedicated to 3D metal printing, also known as metal AM. Unlike conventional metal fabrication techniques, AM produces fully dense metal parts by melting layer upon layer of ultrafine metal powder. The Polytechnic School is using the machines for a wide range of research and development activities including materials development and prototyping complex mechanical and energy systems.   Cont'd...

Lloyd's Register and TWI launch two new projects to advance take-up of additive manufacturing

Collaboration aimed at two aspects of additively manufactured (AM) parts: regulatory compliance and joining of AM

Oracle Cloud Applications Drive Carbon's Quest to Lead in 3D Printing and Additive Manufacturing

Carbon to streamline business processes across organizational development, manufacturing, finance, and services

The 3D Printers of CES

Brian Benchoff for HACKADAY:  CES is over, and now we can take a step back, distance ourselves from the trade show booths, and figure out where 3D printing will be going over the next year. The Hype Cycle is a great way to explain trends in fads and technological advances. VR and autonomous cars are very early on the Hype Cycle right now. Smartphones are on the plateau of productivity. 3D printing is head-down in the trough of disillusionment. For this year’s CES, 3D printing is not even a product category. In fact, the official documentation I found at Prusa’s booth listed their company in the ‘Assistive Technologies’ category. These are dark days for the public perception of 3D printing.  The perception of 3D printing has been tied inexorably to Makerbot. Makerbot presented the only 3D printer on The Colbert Report. Only Makerbot had their 3D printing storefronts featured on CNN. It’s been like this for half a decade, and hopefully things will get better.   Cont'd...

Cognex Announces Acquisitions in 3D Vision and in Industrial ID

Cognex acquires Chiaro Technologies in 3D Vision and Webscan in Industrial ID

3D graphene: MIT scientists develop super-light, super-strong structure

Weston Williams for The Christian Science Monitor:  Many scientists consider graphene to be one of the most potentially useful materials ever created. The atom-thick chain of carbon atoms are strong, light, and promise many applications, from energy storage to pollution removal to waterproof coating. While graphene has been studied since the 1940s, scientists have had considerable trouble constructing it into a structurally useful form on a three-dimensional level. But now, scientists at MIT have figured out how to build up graphene into useful, 3-D shapes with the potential to be lighter and stronger than steel. The new research marks an important step forward for the material. The hexagonal structure is essentially an "unrolled" carbon nanotube only an atom thick, usually only functional on a two-dimensional level. Despite this limitation, graphene is more than 100 times stronger than steel, and converting that two-dimensional strength into a structure usable for three-dimensional building materials has for years been something of a holy grail for graphene researchers. And now, scientists may be one step closer to that conversion.   Cont'd...

GE Additive Education Program Accepting Applications from Schools for 3D Printers

GE is now accepting applications from schools for the GE Additive Education Program (AEP). GE will invest $10 million over the next five years in two educational programs, to develop pipelines of future talent in additive manufacturing. Enabling educational institutions to provide access to 3D printers will help accelerate the adoption of additive manufacturing, worldwide.

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Additive & 3D Printing - Featured Product

Bitflow is the leader in CoaXPress

Bitflow is the leader in CoaXPress

With the introduction of its Cyton and Karbon CXP frame grabbers, BitFlow has established itself as the leader in CoaXPress (CXP), a simple, yet powerful, standard for moving high speed serial data from a camera to a frame grabber. With CXP, video is captured at speeds of up to 6.25 Gigabits/Second (Gb/S). Simultaneously, control commands and triggers can be sent to the camera 20 Mb/S (with a trigger accuracy of +/- 2 nanoseconds). Up to 13 W of power can also supplied to the camera. All this happens over a single piece of industry standard 75 Ohm coaxial cable. Multiple CXP links can be aggregated to support higher data rates (e.g. four links provide 25 Gb/S of data). BitFlow CXP frame grabbers open the door to applications where cable cost, routing requirements and long distances have prevented the move to high resolution, high speed digital cameras. In many cases, existing coaxial infrastructure can be repurposed for CXP with very low installation costs.