3D Printing News Briefs, June 28, 2020: Autodesk, Sinterit, BCN3D Technologies

In today’s 3D Printing News Briefs, we’re talking about software and hardware. First, Autodesk has added a new generative design extension. Sinterit has made some changes so its printers are ready for Industry 4.0. Finally, a BCN3D Technologies 3D printer has been recognized as one of Spain’s best industrial designs.

Autodesk Generative Design Extension

MJK Performance used generative design technology to create a set of lighter and stronger triple clamps for a drag bike

This week, Autodesk announced that it is allowing Fusion 360 users to take advantage of generative design capabilities more easily with the release of its new subscription offering – a generative design extension. This will give users complete access to Fusion 360 generative design for a separate subscription fee of $1,000 per month or $8,000 a year. Autodesk is now offering a special introductory price for a limited time only, so annual subscriptions to Fusion 360 and the new extension are available for 50% off the regular price through July 17th.

“We hear loud and clear that customers, especially these days, crave flexibility, and we’re more than happy to provide a solution at a price point that addresses their needs, especially for budget managers who require predictability. Most of all, we’re excited to see the momentum and incredible outcomes from casual users all the way up to major industry innovators or major brand innovators who are using generative design in the field,” said Stephen Hooper, vice president and general manager, Fusion 360.

Users can also access the generative design extension with their Autodesk Cloud Credits.

Sinterit 3D Printers Ready for Industry 4.0

SLS 3D printer manufacturer Sinterit released a new software update that makes its Lisa and Lisa Pro 3D printers compliant with the Industry 4.0 standard, which works to automate integration with factory logistics. The update provides a new function that allows the printers to generate communication output regarding print status, in addition to a more intuitive user interface and a better tool for object collision detection.

“We received questions from our clients about Industry 4.0 standards compatibility. For some of them, it was a must – a 3D printer without such compliance couldn’t be used,” explained Grzegorz Głowa, head of R&D department in Sinterit.

BCN3D Technologies Recognized for Epsilon 3D Printer

Barcelona company BCN3D Technologies announced that its advanced BCN3D Epsilon 3D printer has been recognized by the FAD Association of Industrial Design as one of the best-designed products of 2019 in Spain. The printer has been shortlisted for the 2020 Delta Awards, and an independent jury of industry experts will announce the winner during Barcelona Design Week this November.

“At BCN3D, we are design: we are meticulous, and our professional 3D printers are crafted after a long process of design and investigation to ensure that the end result is optimal. For us, this recognition is a reflection of the tremendous care we put in each product’s design and reflects on the work of every single member of the BCN3D team,” the company wrote in a blog post.

Discuss these stories and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the Facebook comments below. 

The post 3D Printing News Briefs, June 28, 2020: Autodesk, Sinterit, BCN3D Technologies appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

3D Printing News Briefs: May 30, 2019

In today’s 3D Printing News Briefs, euspen plans to hold a Special Interest Group meeting in September centered around additive manufacturing, and an adjunct professor completed a comparison between a small SLS 3D printer and a large one. Moving on to interesting 3D printing projects, an artist teamed up with Mimaki to use full-color 3D printing to make a stage prop, a reddit user created an anti-cat button for an Xbox system, and an imgur user created a modular 3D printed fashion system.

euspen to Hold Special Interest Group Meeting on AM

The European Society for Precision Engineering and Nanotechnology (euspen) will be addressing the factors which are influencing an uptake of the use of additive manufacturing as a production technology at a Special Interest Group (SIG) meeting in September. The meeting, which will be co-hosted by the American Society of Precision Engineering (ASPE), will analyze the barriers to, and the opportunities for, the adoption of AM in production. It will be held from September 16-18 at the École Centrale de Nantes in France.

At the AM SIG meeting, issues that are, as euspen put it, “critical to the viability of AM as a production technology,” will be addressed. The co-chairs of the meeting are Professor Richard Leach from the University of Nottingham and Dr. John Taylor from the University of North Carolina at Charlotte. Local hosts and the organizing committee include Professor Alain Bernard from Centrale Nantes, Dr. David Bue Pedersen from the Technical University of Denmark, Professor Leach, and Dr. Taylor.

Comparison of Small and Large SLS 3D Printers

3D printers are often used in educational settings these days. Piotr Dudek, an adjunct professor at the AGH University of Science and Technology in Poland, runs a 3D printing lab at the school that both students and researchers frequent. While many technologies are used in the lab, SLS is the one that most interests Dudek, who decided to compare a big SLS system from EOS with the smaller Sinterit Lisa.

We are using the big EOS SLS 3D printer for a long time and we wanted to compare it with Sinterit Lisa, check the possibilities of it. In SLS technology every detail matters. The temperature of the printing chamber, powder distribution system, heating or laser moving mechanism are very precise and important features. We wanted to test if Sinterit’s device is the valuable solution,” Dudek stated.

Larger 3D printers obviously have higher print volumes, but the down sides include difficult calibration, specialized training, and higher costs. In addition, it’s easy to mess up the calibration of a large 3D printer during transport. The Lisa 3D printer uses a gantry system, which comes pre-calibrated to save time, and it also uses less material, which means less money. The desktop printer is also much more student-friendly, making it the better choice for 3D printing labs like the one Professor Dudek runs.

Full-Color 3D Printed Stage Prop

A few months ago, 3DPrint.com heard from 3D printing specialist and Post Digital Artist Taketo Kobayashi, from the Ultra Modelers community, about an art exhibit in Japan that he helped organize which featured colorful, 3D printed works created on the Mimaki 3DUJ-553 full-color 3D printer. Recently, he reached out to us again with news of his latest Mimaki Engineering collaboration – a stage prop for the Japanese artist Saori Kanda, who performed with techno/trance band Shpongle at the Red Rocks Amphitheater in Colorado.

“It is a artwork,” Kobayashi told 3DPrint.com, “but also a utilization of full color 3D printing to entertainment field.”

The “Shpongle Mask,” which took 28 hours to print and mixed in Asian details, was worn onstage by Kanda as she performed her painting live with the band.

3D Printed Anti-Cat Xbox Button

reddit user Mbiggz was getting sick of their cat turning off the touch-sensitive button on the Xbox console while it was in use, which I can understand, having two cats of my own. So Mbiggz came up with the perfect solution – a 3D printed cover for the button. The design can be found on the maker’s Tinkercad account, as Mbiggz originally made the design for a Digital 3D class.

“Adhesive goes on the back part (it is labeled in the print). I’m a newcomer in terms of this so it’s not perfect,” Mbiggz wrote on Tinkercad. “Also, the door doesn’t open all the way, so you can fix it so that it does if you want to (even though it doesn’t really matter, there’s not really a need for it to open it all the way).”

3D Printed Modular Fashion System

hunter62610, a young imgur user, designed and 3D printed a Lego-like modular fabric system, which was featured in his school’s fashion show. He made two dresses that are made with a 3D printed prototype fabric pattern called Escher, which was designed to be “put together and taken apart” hundreds of times. It took him just two weeks to make the material, which the two young ladies who modeled the dresses said was fairly comfortable.

“The idea of the system is that theoretically, one could buy a fashion catalog filled with designs, and say 5000 links. Once could make every clothing item in the catalog, based on there needs. Perhaps that’s a pipe dream, but it’s a fun idea,” hunters62610 wrote.

“The Escher system is quite versatile. Each link acts like a free flowing Equilateral triangle, and has a male and female ball joint on each side. Every individual link is theoretically compatible with every other link. Special links are stored in the middle of this pouch that are really 3 merged links with a screw hole. If needed, these links can be used as elastic tie down points or buttons, if you screw in the buttons i made.”

A Makerbot Replicator Plus was used to print the fabric links in unique, small panels.

Discuss these stories and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the Facebook comments below.

Sinterit’s SLS 3D Printing and Flexible Materials Used to Make Strong Textiles for Opera Costumes

Spongee printed from Flexa Soft

Engineering, textiles, and additive manufacturing are different industries with different growth patterns, but they are connected by an important point: structures. Additionally, each of these industries have to struggle with limitations in order to build products for less money and materials and at a higher rate of speed. But rapid prototyping has changed how these things are built and opened the door to numerous new possibilities.

Selective laser sintering (SLS) 3D printing, also known as powder bed fusion, is an accurate and durable technology that, while perhaps not the fastest method in time to part, is definitely a good choice when it comes to machines that can provide repeatable results or that print batches of many things at once. It also gives users more design freedom, which is why it’s possible to 3D print materials inspired by knitting and weaving.

But engineers aren’t typically interested in textile applications, which is why the fashion industry is driving the push to reproduce flexible features through 3D printing…leading to the invention of such innovations as hexagonal shapes corresponding to hinge joints with a pivoted angle. This kind of textile structure does not have a flexible, elastic surface, but can bend under pressure and deform.


There are many applications for flexible structures in the textile world, from decorative fabrics for interior design to upholstery and scenography, which is the design and painting of theatrical scenery. Along these same lines, SLS 3D printing can be used to create flexible textiles for theatrical costumes as well, which is what Mingjing Lin and Tsai-Chun Huang – PhD candidates in Fashion and Textile research at the Royal College of Art in London – have been working on.

Lin said, “3D printing is our media to probe creative possibilities generated from merging unlike/dynamic elements, such as digital technology and craft, traditional opera and modern performance, as well as East and West.”

Two years ago, the two began working with Polish desktop SLS 3D printer manufacturer Sinterit on creating costumes for Beijing Opera performances of “Farewell My Concubine.” Lin’s specialty is 3D printing, while Huang’s is in pleating, and the two were challenged to create 3D printed costumes that were both sustainable and flexible.

These couldn’t be just any costumes – in this opera, the costumes are an extremely important part of the performance, and had to be utterly amazing. The material used for the costumes needed to fulfill two functions: successfully create and hold the shape that the artist designed, while also being wearable enough that the performers could move freely about the stage. Clearly, this was no job for sewing mere materials like silk and cotton: 3D printing was needed to create more “dramatic geometry,” as Sinterit put it.


For this daunting task, Lin and Huang used the company’s Lisa 3D printer and special Flexa TPU material, which comes in Black, Soft, and Bright for use in various applications. Flexa is very wearable, and the costumes created with the material were able to synchronize with the performers’ bodies while at the same time retaining their shapes, which would not have been possible to achieve using more traditional materials.

The deep color of Flexa Black made it perfect for this particular opera, though Flexa Bright may be a better choice for textile fiber and costume designers, as this durable material can be dyed into different colors; Flexa Soft has the lowest hardness of the series, and is often used to design sportswear prototypes and sensory fabrics.

Obviously, those who work in textiles can find a myriad of uses for 3D printable materials that are both strong and flexible. But here’s the thing – while I noted above that engineers aren’t typically interested in this kind of application, I also believe that it would be to their best interests if they were. Think of the kinds of products they could make with materials, like Sinterit’s Flexa, that are strong enough to hold the specific shapes that are needed for different applications but are also flexible enough to bend and deform under pressure and then spring back into position. But maybe I’m not the best judge – does anyone out there know of any engineering-related applications that are using flexible textiles? Let us know!

Discuss this story and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the Facebook comments below.

3D Printing News Briefs: July 27, 2018

We’ve got plenty of awards and other business news for you today in 3D Printing News Briefs. Sinterit and ViscoTec each received awards for their technology, while Arkema announced that it is opening a 3D Printing Center of Excellence at its Pennsylvania facility. Vectary and Sketchfab are integrating, and Xometry is now offering SLA 3D printing. Finally, OPEN MIND Technologies has introduced its latest hyperMILL CAM software.

Sinterit Lisa Receives Award from All3DP

Sinterit, one of the fastest growing manufacturers of SLS 3D printers, just received the “Best Desktop SLS 3D Printer Summer 2018” award for its Lisa 3D printer by All3DP. The award shows that the company is moving in the right direction, and confirms that the Lisa is the perfect choice for 3D printing professionals looking to upgrade to SLS technology without breaking the bank. Even better for Sinterit: the award was announced in the final week of a pre-order period for its upgraded Lisa model, which will feature better hardware, bigger 3D prints, and easier maintenance.

“All3DP is happy to present the Sinterit Lisa with the award for Best Desktop SLS 3D Printer on the market. We recognize the Sinterit team for their tremendous work in making SLS 3D printing technology more affordable and accessible,” said Tyler Koslow, Editor at All3DP. “Additionally, their recent update to the Sinterit Lisa and development of the new Sinterit Lisa 2 PRO suggests that they will remain a market leader for a long time.”

ViscoTec Awarded Special Title Two Years Running

Georg Senftl (holding certificate) and Martin Stadler (holding lion) accepted the award on behalf of all ViscoTec employees.

For the second year in a row, German company ViscoTec, which specializes in pump and dose technology and has 3D printing viscous liquid products for silicone and other materials was awarded the “Bayern’s Best 50” title. For 17 years, the Bavarian Ministry of Economic Affairs has honored the 50 most dynamic, medium-sized companies in Bavaria, and the jury considers criteria such as number of employees, turnover, and social and economic contributions. ViscoTec, and the other 49 winning companies were personally awarded the title, a certificate, and a Bavarian porcelain lion by Bavaria’s Minister of Economic Affairs, Energy and Technology Franz Josef Pschierer at a recent event in Schleißheim Castle.

“Our employees all over the world actively help us to be such a successful company every day and that we will continue to develop very well in the future. Special thanks also go to our partners and customers. Their partnership with ViscoTec is constantly driving us forward. This motivates us not to stand still, to open up new possibilities and to find solutions for the daily challenges,” said Georg Senftl, Commercial Director of ViscoTec Pumpen- u. Dosiertechnik GmbH. “Last but not least, the innovative climate in the Inn-Salzach region contributes to the continuous development of companies like ViscoTec.”

Arkema to Open 3D Printing Center of Excellence

3D Printers and Post-Processing Machines for UV-Cured Resins at Arkema Center for Excellence.

This Monday, July 30th, speciality chemical and advanced materials developer Arkema will be holding the grand opening for its new 3D Printing Center of Excellence. The center will be located at the Exton, Pennsylvania facility of its Sartomer subsidiary, which designs engineered resins for UV-curable additive manufacturing under its N3xtDimension brand. The 3D Printing Center of Excellence will work to advance 3D printing resins technology and be home to most UV-based 3D printing technologies, such as Digital Light Processing (DLP), stereolithography (SLA), and HP’s Multi Jet Fusion (MJF). It will offer a collaborative space for developing custom resins, and complete the company’s worldwide R&D network, which is dedicated to developing advanced 3D printing materials.

“Sartomer is a historic partner for 3D printing pioneers. We’re launching the 3D Printing Center of Excellence to deepen our support of the visionaries working to develop innovative 3D printed materials,” said Sumeet Jain, Global Director, 3D Printing at Sartomer.

Vectary Integrates Sketchfab

Online 3D design tool Vectary is giving its users access to thousands of new 3D models, as it has now integrated Sketchfab, the world’s largest platform for interactive 3D content. Vectary users can connect to the Sketchfab library and import hundreds of thousands of 3D models with one click, as well as export, publish, and even sell their own 3D work on Sketchfab. Vectary CEO Michal Koor, who co-founded the tool in 2014 with Pavol Sovis said, “Easily importing Sketchfab 3D models in the Vectary 3D tool can be a great way to create design concepts and bring more inspiration to their work. Exporting their Vectary models to Sketchfab gets them exposure to a larger audience, which can mean an increased customer base and new income possibilities by selling their work on one of the best 3D marketplaces available.”

Xometry Adds SLA 3D Printing to List of Services

3D printing service provider Xometry has added stereolithography (SLA) 3D printing to the list of 3D printing processes it provides. Versatile SLA technology offers higher resolution 3D printing, which will allow Xometry’s customers to achieve prints with good surface finish and fine detail – perfect for production parts and prototypes. The technology also enables you to print large products and parts and can create complex parts, to meet tolerances of +/- 0.004” or +/- 0.001” per inch, in a single operation.

Xometry also offers plenty of SLA-friendly materials, such as the Accura and Somos brands. Try it out today – upload your 3D CAD file to Xometry now to get an instant SLA quote.

New Version of hyperMILL CAM Software Released

3D Z-Level Shape Finishing

Germany CAD/CAM software solutions develop OPEN MIND Technologies AG has released the latest version of its advanced CAM software, hyperMILL 2018.2, which provides more machining efficiency and several new enhancements and features. 3D Z-level Shape Finishing, available in the hyperCAD -S module, now comes with automatic face extension to automatically extend selected milling surfaces during CAM programming, and can now also support conical barrel cutters.

This version also provides a “V sketch” command, which allows users to make easy changes to turning contours and milling boundaries by assigning geometric constraints to 2D contours. Other enhancements to the -S module include being able to measure and record distances between two shapes, like meshes, solids, and face models.

Alan Levine, Managing Director of OPEN MIND Technologies USA, Inc., said, “Keeping the hyperMILL suite at the forefront of CAM technology, we are pleased to offer our customers improved CAM strategies and enhanced CAD tools for even greater machining productivity through our new release of hyperMILL 2018.2.”

Discuss these stories and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the Facebook comments below.