MetalFAB1 3D printer Archives - Perfect 3D Printing Filament

3D Printing Webinar and Virtual Event Roundup, July 7, 2020

We’ve got plenty of 3D printing webinars and virtual events to tell you about for this coming week, starting with nScrypt’s webinar today. 3Ding and Formlabs will each hold a webinar tomorrow, July 8th, and 3D Systems is hosting a virtual event on the 8th. There are two more webinars on July 9th, by KEX Knowledge Exchange and ASME, and Additive Industries is holding a virtual event that day. Finally, a 3D Health Hackathon will take place starting July 10th.

nScrypt’s Cutting Edge of Digital Manufacturing Webinar

On June 30th, nScrypt held the first of a two-part Cutting Edge Digital Manufacturing webinar series, and is holding the second part today, July 7th, at 1 pm ET. In part two of “Pushing the Envelope of Digital Manufacturing,” the speakers will be Eric D. Wachsman, PhD, from the University of Maryland; Eduardo Rojas, PhD, with Embry-Riddle Aeronautical University; Hjalti Sigmarsson, PhD, from Oklahoma University; and Craig Armiento, PhD, with the University of Massachusetts Lowell.

Topics of discussion in this webinar include the use of metamaterials, building radio frequency devices, systems, and the first 3D/volumetric electrical circuits and antennas, and the state of the art of 3D manufacturing. Register here.

3DIng “Let’s Talk 3D Printing” Webinar

Indian 3D printer manufacturer 3Ding recently began holding a weekly webinar about 3D printing-related topics, such as SketchUp training, different types of 3D printing, OpenSCAD, slicing, applications in rapid prototyping, and how to choose a 3D printer. Tomorrow, July 8th, the topic of the weekly webinar will be “Live Demo of FabX, Hydra Series 3D Printers & AMA.”

Surendranath Reddy, the founder, CEO, and CTO of 3Ding, is leading the remote webinar session, which will take place at 6:30 am ET and last about 45 minutes. You can join the session here.

Webinar on Formlabs’ New Materials

Formlabs recently launched two new materials, Flexible 80A and Elastic 50A resins, which allows customers to make soft, flexible parts with ease. In a webinar on July 8th at 2:00 pm ET, attendees will get to learn all about these resins with the company’s Materials Product Manager Kathy But and webinar specialist Faris Sheikh. Topics will include when to use these materials, optimal applications, 3D printing material properties like spring back, tensile strength, and shore durometer, and the Ross Flex Test.

“To make soft and flexible parts with traditional methods, such as RTV moldmaking, can be a lengthy process. If you’ve also tried directly 3D printing flexible parts, you probably know there’s not many high performing materials available. That is now changing.

“With the launch of our Flexible 80A and Elastic 50A Resins, you’ll be able to easily fabricate flexible parts that are both soft and hard.”

3D Systems’s Virtual Tradeshow

3D Systems is holding a virtual event on July 8th in order to teach attendees how to transform their manufacturing workflows. There will be a keynote address, networking opportunities, multiple live webinars, and even a virtual exhibition hall. The company will provide examples of digital manufacturing solution workflows with plastic and metal additive manufacturing, subtractive manufacturing, and on-demand services.

“Businesses are focused on lowering risk, resolving supply chain dependencies, streamlining supplier distribution and avoiding interruptions to supply access.

“Join 3D Systems at this exclusive virtual event to find out how Digital Manufacturing Solutions designed for today’s production needs, enable you to integrate additive and subtractive technologies into your manufacturing environment and workflow — providing increased agility, quicker lead times, improved productivity, and allowing you to offer new innovations to your customers.”

All presentations will be in English, and available on-demand for 30 days. Register here.

KEX Knowledge Exchange on Powder Bed Fusion

KEX Knowledge Exchange AG, a former spinoff of Fraunhofer IPT, offers technology consulting. As a service to its industrial and research partners, the company also has a web platform that offers over 7,000 profiles of AM technologies and materials, in addition to industry news, and has now launched a section devoted to webinars, with topics including post-processing and powder bed fusion (PBF) 3D printing.

“Together with one of our appreciated network partners, the ACAM Aachen Center for Additive Manufacturing, we now launched a webinar section,” Jun Kim Doering, a technical writer with KEX, told 3DPrint.com. “Due to the COVID19 situation, ACAM has shifted their focus to an online offering, including webinars on different aspects of the AM technologies and applications.”

The first, “Webinar Powder Bed Fusion (PBF) – Advanced insights into Process, Parameters & Hardware,” will take place this Thursday, July 9th, and Erik Feldbaum, ACAM Aachen Center for Additive Manufacturing, will speak. It’s free for ACAM members, and will cost €175 for non-members.

ASME on 3D Printing in Hospitals

AM Medical, powered by ASME International, will be holding a free, live webinar this Thursday, July 9th, on “Building the Business Case for 3D Printing in Hospitals.” Point-of-care manufacturing leaders will discuss necessary skills, where to find the proper resources, how to address reimbursement, and other important questions during the hourlong session, from 4-5 pm ET. Speakers are Andy Christensen, the President of Somaden; Jonathan Morris, MD, Neuroradiologist and Director of the Mayo Clinic’s 3D Printing Anatomic Modeling Lab; Beth Ripley, MD, Assistant Professor of Radiology with VA Puget Sound; Justin Ryan, Research Scientist at Rady Children’s Hospital-San Diego; and Formlabs’ Director of Healthcare Gaurav Manchanda.

“The ability to manufacture from the patient’s data (medical imaging or surface scan) has been compelling to a community always looking for ways to innovate. With improving patient care as the primary goal, 3D printing has directly impacted more than 1 million patients. More than 25 years ago, anatomical models began to be used for planning of complex surgical procedures. Today, hospitals are using the technology for surgical guides and more. With increasing numbers of hospitals looking to bring 3D printing into their facility, how are they building the business case?”

Additive Industries Hosting Digital Event

On July 9th and 10th, Additive Industries is getting the trade show season running again with what it calls “a corona-proof way to get out of the starting blocks.” At its two-day virtual event, attendees can visit the company’s digital booth, view presentations, and talk to the experts to learn more about the MetalFAB1 3D printer and how the company can help turn your ideas into reality…all without traveling or waiting in line.

“While the virtual domain has limitless possibilities, we still live in the physical world. With our exclusive industry additive manufacturing event – we are making the virtual world a reality.”

3D Health Hackathon

The Jersey City Rapid Maker Response Group (JCRMRG), a volunteer collective in New Jersey, is hosting a virtual Community Health Hackathon this week in order to foster community entrepreneurship and take on sustainability, supply chain, and manufacturing challenges that are related to healthcare and PPE (personal protective equipment) during COVID-19. There are three categories: sustainable PPE, modular solution labs, and day-to-day PPE, and the deadline to register is this Friday, July 10, at 12 pm ET. Panelists will meet the nine judges during a Zoom call that night to present their ideas, and then the next two days will be spent hacking. The final submission deadline is July 13th at 9 am, and winners will be announced on July 16th.

“Throughout the COVID-19 health crisis healthcare workers faced critical shortages in PPE created by supply chain disruptions and shortages. Jersey City Rapid Maker Response Group, as well as other groups like them around the country, proved that by quickly deploying 3D-printing capabilities and then extending those capabilities through rapid manufacturing – they were able to scale from producing 1,000 face shields a week to 10,000 face shields a day, both at a fraction of traditional pricing.

“We have reached out to leaders in the tech, manufacturing and 3D-printing communities to form a community-led virtual make-athon. Our collective goal is to continue to bring bright minds together to develop 3D-printing, manufacturing and community-based engineering solutions to address the ongoing needs surrounding supply chain disruptions in emergent and healthcare settings.”

The current prize pool is valued at over $7,500, so what are you waiting for? Register for the hackathon here.

Will you attend any of these events and webinars, or have news to share about future ones? Let us know! Discuss this and other 3D printing topics at 3DPrintBoard.com or share your thoughts in the comments below.

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Additive Industries & ArcelorMittal Using MetalFAB1 3D Printer to Make Spare Steel Parts

One of the world’s leading steel and mining companies, ArcelorMittal, is partnering with Dutch company Additive Industries to investigate the use of metal 3D printing to make large spare parts for the steel industry. Additive manufacturing is used to fabricate spare parts for plenty of applications and industries, including maritime, railways, the military, consumer appliances, automotive, and many more. It makes a lot of practical business sense, as 3D printing spare parts offers companies, like ArcelorMittal, flexibility, a reduced production cycle, and on-demand manufacturing; if this happens onsite, it can even save on shipping costs.

3D printed spare parts used in ArcelorMittal facilities: (A) Example of part consolidation application with 316L original part on the left and 3D printed part on the right; (B) example of functional large parts with internal lattice structure made with 316L above 500 mm; and (C) lightweight (hollow) functional spare parts made with Maraging Steel with ArcelorMittal’s optimized parameters.

By collaborating with Additive Industries on metal 3D printing over the last few years, and using the technology to build on-demand spare parts, ArcelorMittal has improved its quality and process performance – allowing the company to print large, complex components that are ready to use.

“Additive Manufacturing is an exponential technology, moving very fast. Our collaboration with Additive Industries is a clear demonstration of our ability to remain at the cutting-edge of this technology: we started by printing small specimens and have now progressed to large size and complex parts,” said Jose López Fresno, Head of the Additive Manufacturing department, ArcelorMittal Global R&D in Avilés, Spain.

Operations in the steelmaking industry require components, and spare parts, that must hold up under difficult conditions. In the beginning of the ArcelorMittal and Additive Industries collaboration, they had to figure out how best to achieve the necessary requirements for component size and quality. But over the last two years of working together, the two have achieved an up to fourfold increase in component size, in addition to improving their reliability and quality. This means that the steel company has been able to increase the amount of applications for its 3D printed spare parts from small size part consolidation to jobs that need complex, functional, large, and strong parts.

MetalFab1 on the day of installation in ArcelorMittal R&D facilities in Avilés.

Now, the two are looking at what metal 3D printing can do for the steel industry with the MetalFAB1 by Additive Industries, which is one of the market’s largest 4-laser metal AM systems.

“Innovation and market leader ArcelorMittal have helped us to stress-test our MetalFAB1 system for critical spare-part production,” stated Daan A.J. Kersten, Co-Founder and CEO Additive Industries. “This enabled us to expand our experience to the steel industry from our main application markets in aerospace and automotive. It has become clear that metal 3D printing is a serious alternative for a large variety of cast parts.”

First introduced back in 2015, the unique MetalFAB1 printer has a 420 x 420 x 400 mm build volume, which makes it possible to fabricate large steel spare parts for the mining and steelmaking industries. But at the same time, it also ensures high productivity because it automated the manual steps of regular powder bed fusion 3D printers; this, in turn, equals the lowest cost per 3D printed part.

The modular MetalFAB1 has multiple build chambers, up to four 500W lasers, and can be configured for up to 11 different modules for more productivity or post-processing automation. It’s also well-designed for safety, which is perfect for ArcelorMittal and its focus on operator safety. In addition, 3D printing spare parts can help reduce waste – meeting another of the company’s objectives in terms of environmental safety.

“We are proud to work together with ArcelorMittal, jointly driving the business case for 3D-printed parts in the steel industry,” said Harry Kleijnen, Key Account Manager for Additive Industries. “ArcelorMittal’s typical applications have enabled us to further adapt the MetalFAB1 system to print high density, high volume parts. We are looking forward to expanding the range of applications and materials in this intense and strong collaboration.”

Since the first MetalFAB1 3D printer was installed at ArcelorMittal’s R&D facilities, the company has already used several of the 3D printed spare parts. To see the assembly and installation of the MetalFAB1 at ArcelorMittal, check out Additive Industries’ video here.

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(Source/Images: Additive Industries)

The post Additive Industries & ArcelorMittal Using MetalFAB1 3D Printer to Make Spare Steel Parts appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

3D Printing News Briefs: July 2nd, 2019

We’re talking partnerships and materials in today’s 3D Printing News Briefs. The Alfa Romeo F1 team and Additive Industries are strengthening their technology partnership, while Beam-IT and SLM Solutions are expanding their own cooperation. Metallum3D just opened a new beta testing program for its stainless steel filament, while Zortrax and CRP Technology are both introducing new materials.

Alfa Romeo F1 Team and Additive Industries Strengthen Partnership

At the recent Rapid.Tech-Fabcon industrial 3D printing conference in Germany, Additive Industries announced that its current technology partnership with the F1 team of Alfa Romeo Racing would be growing stronger. The Sauber Engineering company, on behalf of Alfa Romeo Racing, has ordered an additional: 4-laser, multi-module MetalFAB1 Productivity System, bringing the total up to four systems and making it Additive Industries’ largest customer with a high-productivity metal 3D printing capacity.

“Our installed base is growing fast, not only with new customers in our core markets like aerospace and the automotive industry but also through existing customers like Sauber Engineering, who are advancing to become one of the leading companies in industrial 3D printing in Europe, ramping up production,” stated Daan Kersten, the CEO of Additive Industries. “Although most users of metal additive manufacturing are still applying prototyping systems, we see an increasing number of companies concluding they need dedicated systems for series production. Our modular MetalFAB1 family is the only proven system on the market today designed for this use. We are grateful and proud to be technology partner to Sauber Engineering and the F1 team of Alfa Romeo Racing.”

Beam-IT and SLM Solutions Sign Expanded Agreement

M.Sc.Eng. Martina Riccio, AM Process Leader of Beam-IT and technical team

Italian 3D printing service bureau Beam-IT and metal 3D printing provider SLM Solutions have signed an agreement, which will expand their current long-term cooperation. Together in a joint venture project, the two will work to develop more material parameters – focusing on certain material properties – for the nickel-based alloys IN939 and IN718; this process will help create a less lengthy timeframe in terms of parameter testing. Additionally, Beam-IT has added two new SLM 3D printers to its product portfolio: an SLM 280 and an SLM 500.

“We are pleased to announce our cooperation agreement with SLM Solutions and the two additional machines,” said Michele Antolotti, the General Manager of Beam-IT. “We regularly produce high-quality parts for our customers using selective laser melting because the SLM ® technology works efficiently, quickly and, above all, safely. With the expanded capacity of our new multi-laser systems we can also increase our productivity and react to the increased interest in SLM ® technology from our customers.”

Metallum3D Opens Stainless Steel Filament Beta Testing Program

Virginia-based company Metallum3D announced that it has opened a beta test program for its stainless steel 316L 3D printing filament. This new program will support the company in its development of an affordable and accessible on-demand metal 3D platform for FFF 3D printers. The Filament Beta Test Program is open until July 31st, 2019, and a limited run of 150 0.5 kg spools of Metallum3D’s stainless steel 316L filament will be offered for a discounted price on a first come, first serve basis.

Nelson Zambrana, the CEO of Metallum3D, said, “Our 1.75mm Stainless Steel 316L filament material has a metal content of 91.7% by weight or 61.5% by volume, while maintaining enough flexibility for a minimum bend diameter of 95 mm (3.75 in.). The combination of high metal loading and filament flexibility was a tough material development challenge that took us over a year to solve.”

Zortrax Introducing Biocompatible Resins for Inkspire 3D Printer

Last year, Polish 3D printing solutions provider Zortrax developed the Inkspire, its first resin 3D printer. The Inkspire uses UV LCD technology to create small and precise models for the architecture, jewelry, and medical industries. With this in mind, the company is now introducing its specialized biocompatible resins that have been optimized for the Inkspire to make end use models in dentistry and prosthetics.

The new class IIa biocompatible Raydent Crown & Bridge resin is used for 3D printing temporary crowns and bridges, and is available in in an A2 shade (beige), with high abrasion resistance for permanent smooth surfaces. Class I biocompatible Raydent Surgical Guide resin for precise prosthetic surgical guides is safe for transient contact with human tissue, and offers translucency and high dimensional accuracy. With these new materials, the Zortrax Inkspire can now be used by prosthetic laboratories for prototyping and final intraoral product fabrication.

CRP Technology Welcomes New Flame Retardant Material

Functional air conditioning piping made with LS technology and Windform FR1

In April, Italy-based CRP Technology introduced its Windform P-LINE material for for high-speed, production-grade 3D printing. Now, it’s officially welcoming another new material to its polyamide composite family – Windform FR1, the first carbon-filled flame-retardant laser sintering material to be rated V-0. The material is from the Windform TOP-LINE family, and passed the FAR 25.853 12-second vertical, the 15-second horizontal flammability tests, and the 45° Bunsen burner test. The lightweight, halogen-free material combines excellent stiffness with superior mechanical properties, and is a great choice for applications in aerospace, automotive, consumer goods, and electronics.

“Only a few days from the launch of a new range of Windform® materials, the P-LINE for HSS technology, I’m very proud to launch a new revolutionary composite material from the Windform® TOP-LINE family of materials for Laser Sintering technology,” said Franco Cevolini, VP and CTO at CRP Technology. “Our aim is to constantly produce technological breakthroughs. With Windform® FR1 we can steer you toward the proper solution for your projects.

“We will not stop here, we will continue our work on renewal and technological expansion in the field of Additive Manufacturing. Stay tuned!”

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3D Printing News Sliced: Titomic, Barclays, AMUG, Formnext + PM South China, Desktop Metal

In this week’s edition of the 3D Printing Industry News digest, Sliced, companies such as BigRep, Senvol gear up for the Additive Manufacturing Users Group (AMUG), and Nanofabrica strategically prepares for Hannover Messe. Additional conferences related to additive manufacturing such as MECSPE Parma, in Italy, and Amerimold: The Event for Mold Manufacturing, are presenting the […]

3D Printing News Briefs: November 23, 2018

We’re starting with a little business news in today’s 3D Printing News Briefs – Intech confirmed its first order for Additive Industries’ MetalFAB1 3D printer, and Roboze CEO Alessio Lorusso has won a prestigious Ernst & Young award. Moving on, researchers are working on 3D printable thermoelectric materials that can convert heat from the surrounding environment and convert it into electricity, while an architecture studio has developed a unique concept for a 3D printed, transportable toilet that converts something very different into electricity. Finally, if you’re looking for a unique gift this holiday season, check out Bloomingdale’s, which is working with Twindom and KODAK to offer 3D printed holiday portraits.

Intech Confirms MetalFAB1 Order with Additive Industries

On the last day of formnext 2018, Bangalore-based Intech, a leader in metal 3D printing in India, confirmed its first order of the MetalFAB1 system from Dutch 3D printer manufacturer Additive Industries. This order marks Additive Industries’ expansion into Asia, and will also help Intech accelerate its business. Application and process development and customer support will be handled from the new regional Additive Industries center in Singapore.

“Accelerating adoption of additive manufacturing is the primary objective at Intech. Moving from prototyping to series production with focus on cost per part with repeatable quality is the way forward. This is a stepping stone for Intech in achieving its goal to meet the demands of customer requirements of printing large parts with excellent quality,” explained Sridhar Balaram, the CEO of Intech. “Intech has been working with various customers in different industry verticals by identifying parts for mass production as a proof of concept. With Additive Industries’ MetalFAB1 we can now scale for volume. The system is unique in the industry and we are excited to add this to our fleet of equipment.”

Roboze CEO Alessio Lorusso Wins Award from Ernst & Young

Alessio Lorusso

Alessio Lorusso, the CEO and founder of Italian 3D printing company Roboze, was recently awarded the prestigious 2018 Startup Award by Ernst & Young (EY) at its Entrepreneur Of the Year 2018 awards. Established for the first time during the 2015 awards, the Startup Award is awarded for contributing to a major growth of the Italian, and worldwide, economy, and is dedicated to an individual’s ability to create value with a spirit of innovation and a strategic vision. The award aims to make young, bright minds, who create a company from an innovative idea, more visible.

“In 2015, when we presented our first solution to the global market, I could not even imagine to achieve our goals in such a short time. We faced the logics of the machines design for additive manufacturing with clear, real and innovative competitive advantages. The market chooses us because our technology is definitely the best one, as specifically designed and produced to meet the real needs of the manufacturing companies,” said Lorusso. “This award is the result of the entire Roboze team’s hard work and constant commitment; so I want to dedicate this to each member of it. It was hard but we always believed it and this award does confirm that we are following the right way to conquer and revolutionize the whole global market.”

Thermoelectric Materials Converting Heat into Electricity

Flexible thermoelectric device embedded in a glove for generating electricity by body heat. [mage: Dr. Song Yun Cho, Korea Research Institute of Chemical Technology]

According to a review of new research in the Science and Technology of Advanced Materials journal, a team of scientists are working to design thermoelectric materials that can harvest heat from the environment, then convert it into electricity in order to power appliances and devices. Products made with these materials, such as wearable devices, could be more cost-effective, as they won’t need to recharge, change, or dispose of batteries. The team, which published a paper called “Thermoelectric materials and applications for energy harvesting power generation,” is investigating three different types of conducting materials, including inorganic and organic.

The abstract reads, “Thermoelectrics, in particular solid-state conversion of heat to electricity, is expected to be a key energy harvesting technology to power ubiquitous sensors and wearable devices in the future. A comprehensive review is given on the principles and advances in the development of thermoelectric materials suitable for energy harvesting power generation, ranging from organic and hybrid organic–inorganic to inorganic materials. Examples of design and applications are also presented.”

Most organic thermoelectric devices involve polymers, and semiconducting ones are more lightweight and inexpensive, can hold heat better than conventional inorganic semiconductors, and are flexible enough to be 3D printed. Inorganic thermoelectric devices can convert heat into electricity, but aren’t that flexible. The researchers say that while thermoelectric devices could actually replace traditional batteries in many applications someday, a lot more work is required first. Time will only tell with this one.

Spark’s 3D Printed Toilet

Speaking of electricity, architecture studio Spark has developed an innovative concept for a transportable toilet, made with 3D printed elements, that can actually convert human waste into electricity. Fittingly, the studio launched its Big Arse Toilet on Monday to coincide with World Toilet Day. The module was designed for use in remote villages in India, where the UN is working hard to tackle the sanitation and hygiene issues stemming from open defecation. The toilet elements would be 3D printed from bamboo fibers mixed with biopolymer resin, and the completed module would be anchored to a 3D printed reinterpretation of a traditional biogas dome buried underground, which uses waste to generate and store gas.

Spark told Dezeen, “The Big Arse toilet reinterprets the use and organisation of traditional bio-gas domes to create electricity and gas for those communities that have no access to power networks and utility infrastructure that we take for granted.

“Bio-gas is a product of the breakdown of organic matter, in the case of the Big Arse Toilet the biogas is a product of human waste, food waste and agricultural waste. The biogas can be used directly for activities such as cooking or can be used to drive a micro CHP turbine that converts the gas into electricity.”

Bloomingdale’s Offering Personalized Holiday 3D Printed Portraits

3D body scanning leader Twindom, a brand licensee of Kodak, is offering a unique gift promotion this holiday season to shoppers at the Bloomingdale’s stores in San Francisco and New York City: personalized, 3D printed holiday portraits, made with the KODAK Full Body 3D Scanner until the end of December, just in time for Christmas. Shoppers who want to have a 3D printed portrait made can either make an appointment or just walk in to the store.

Once there, simply enter your information, walk into the KODAK Full Body 3D Scanner, and pose for the scan, which only takes 1⁄4 of a second to complete. Then, review the 3D capture, choose your size – 3 to 14 inches – and place your order, which will be 3D printed in full color and ship in about 1-2 weeks. Pricing starts at around $69 for the 3D printed portraits, and local support at each store location is provided by Twindom’s local partners: PocketMe, PeoplePrints 3D, and Memories in 3D.

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3D Printing News Briefs: November 17, 2018

Continuing with the week’s second edition of 3D Printing News Briefs, or rather formnext 2018 News Briefs, we’ve got more announcements coming from the huge trade fair, which just ended today in Frankfurt. 3D Systems introduced two new 3D printers and a new material, while Solvay showcased its two new medical grade filaments. ViscoTec revealed its new two-component print head, and Additive Industries announced a partnership with Air Liquide on the show floor. Finally, Honeywell FM&T engineers are using topology optimization to shorten the design process at the DOE’s Kansas City National Security Campus.

3D Systems Showcases Two New 3D Printers

DMP Factory 350

This week at formnext, 3D printing leader 3D Systems announced two additions to its DMP metal 3D printing platform, along with a new aluminum alloy material. This platform allows customers to scale from the new DMP Flex 350 – successor to the ProX DMP 320 – all the way up to the new DMP Factory 350 as their production needs shift. These 3D printers were built to provide repeatable, robust metal parts production 24/7. The $575,000 Flex 350 offers an improved print productivity of 15% over previous models, comes with improved gas flow technology for uniform part quality, and allows for more efficient production of very dense, pure metal parts. The $763,000 Factory 250 combines all of these advantages and features with a little something extra – integrated powder management. An in-unit viewing panel allows for a visual inspection of the ultrasonic sieve, and also includes real-time process monitoring. In addition to its two new DMP 3D printers, 3D Systems also introduced a new aluminum alloy material, LaserForm AlSi7Mg0.6 (A), which offers electrical ductility, corrosion resistance, and high-thermal conductivity.

“At Formnext 2017, I announced 3D Systems’ intent to bring 3D printing to the factory floor with a new generation of additive manufacturing solutions. Today I am happy to report that over the last year we have brought to market an unrivalled series of plastic and metal 3D printers, materials and software that are optimizing workflows, enabling new design innovations, and reducing costs,” said Vyomesh Joshi, the President and CEO of 3D Systems. “The new innovations we are announcing today – DMP Flex 350, DMP Factory 350, and LaserForm material– further expand 3D System’s customer-first, solution approach to drive the transformation of manufacturing.”

The DMP Flex 350 and DMP Factory 350 should be available in late Q4 2018.

Solvay Introduces New Medical-Grade Filaments

Global specialty polymer supplier Solvay was also at formnext this week to launch new products. The company introduced three new additions to its high-performance 3D printing filament portfolio – KetaSpire PEEK (NT1 HC), a 10% carbon fiber-reinforced KetaSpire (CF10 HC), and Radel PPSU (NT1 HC), which are Solvay’s first medical-grade materials for limited contact applications in the healthcare industry. The KetaSpire PEEK filaments enable high part density, achieve great printed layer fusion, and provide excellent part strength, along the z-axis in particular. Radel PPSU delivers the same exceptional fusion, and also has toughness, transparency, and high elongation. These three new grades are available immediately in both North America and Europe through Solvay’s e-commerce platform.

“The healthcare industry is quickly emerging as a leading market to benefit from AM technology which makes customized parts for single use or low volumes possible. However, there is still a very limited choice of high-performance filaments that meet the stringent regulatory requirements in healthcare and this is the gap we want to close with our new selection of medical grade products,” said Christophe Schramm, Additive Manufacturing Business Manager at Solvay’s Specialty Polymers global business unit.

VisctoTec Launches New Two-Component Print Head

This spring, Germany-based ViscoTec, which is well known for its innovative 3D print heads, introduced the vipro-HEAD, a print head with an optional heating function for viscous fluids. The vipro-HEAD 3 and vipro-HEAD 5 allow the company’s 3D printing customers to process viscous fluids and pastes, and now ViscoTec has delivered again. At formnext this week, the company launched its new two-component print head, vipro-HEAD 3/3 and 5/5, which allows for the 3D printing of two-component viscous fluids and pastes.

The print head, which comes in two sizes, has parallel, independently running motors, which receive direct signals from the 3D printer itself. Bleeding screws can be adapted to the vipro-HEAD 3/3 and 5/5 for venting during start-up, and optional integrated pressure sensors can monitor the output pressure at the static mixer, so dosing is automatically stopped if any pressure fluctuations occur so the rotor and stator aren’t damaged. With ViscoTec’s new print head, nearly all two-component viscous fluids and pastes can be dispensed continuously and gently.

Additive Industries and Air Liquide Announce Partnership

The last piece of formnext 2018 news to share with you today is the newly announced partnership for industrial 3D printing between France-based Air Liquide and Netherlands company Additive Industries. The two have long enjoyed a working relationship, and decided to increase this into a professional partnership, in order to develop a dedicated infrastructure for gasses. Air Liquide will add its solutions for supplying and storing shielding gasses, and an infrastructure blueprint for Additive Industries’ MetalFAB1 3D printer will allow customers in demanding markets to increase the safety, quality, and post-processing of 3D printing.

“On our continuous quest to improve the performance of our systems while offering our users a fully integrated solution, we have identified the gas infrastructure for argon and nitrogen as an often overlooked but important piece of the puzzle,” said Daan Kersten, CEO of Additive Industries. “Because of our partnership with Air Liquide, we now can offer a blueprint to our customers to guarantee a reliable gas storage and supply as well as a higher level of safety, our number one priority.”

Topology Optimization Used by Honeywell FM&T Engineers

Honeywell FM&T, an engineering, manufacturing and sourcing enterprise that’s part of the aerospace company Honeywell, manages and operates the Kansas City National Security Campus for the US Department of Energy. It used to take the engineers months to design and produce materials to use for tooling and testing purposes. But Honeywell FM&T is now saving time by using digital manufacturing technology, which allows the engineers to bring their ideas to fruition in days, instead of months.

Topology optimization, or TO, shortens the normal design process by creating a prototype based on the functional and physical requirements, and then simulating production with it. 3D products designed with TO are less expensive, more lightweight, and stronger, and the Honeywell FM&T team recently used the technology to redesign a part that would meet structural requirements, but also weighs 46% less as well.

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