Additive Industries secures €14m in funding to fuel expansion

Dutch 3D printing company Additive Industries has received a €14 million investment from shareholder Highlands Beheer.  The metal Powder Bed Fusion (PBF) 3D printer manufacturer will use the capital to expand its product portfolio, accelerate the technology roadmap, and strengthen working capital.  “This substantial investment confirms the long-term commitment of Highlands to the growth ambitions […]

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: August 3, 2019

For this edition of 3D Printing News Briefs, we’re starting off with a celebration – Scansite created 3D printed replicas of the spacesuit that Neil Armstrong wore for the 50th anniversary of the moon landing. Moving on to business and metals, 3D Hubs has hired a new Managing Director for the US, and DigiFabster published a case study. IAM 3D HUB’s newest technological partner is ArcelorMittal, and finally, SmarTech Publishing released some new research on metal powder bed fusion.

Scansite Creates 3D Printed Replicas of Famous Spacesuit

Just over 50 years ago last month, Neil Armstrong became the first man to walk on the moon, and people around the world have been celebrating this important anniversary. In 2015, the Smithsonian National Air & Space Museum launched a Kickstarter campaign to conserve, preserve, and digitize Armstrong’s spacesuit from that fateful day; this year, to commemorate the anniversary, the museum contacted Scansite to create 15 extremely faithful replicas of the suit for its 50th celebration of the moon landing. The interactive, life-sized “Apollo at the Park” replicas were made to display at 15 MLB ballparks around the US, together with an augmented reality app so visitors can learn important facts about the Apollo 11 moon mission.

“Baseball parks are the perfect venues for new generations to learn more about that summer night on July 20, 1969. The spacesuit replicas allow us to bring a piece of Apollo to Americans everywhere,” said Ellen Stofan, director of the National Air and Space Museum.

Scansite conducted high resolution 3D scanning of the original spacesuit, which was tricky because it features many details and different materials. The company used both a Breuckmann structured light scanner and a Faro touch probe to acquire the scan data, which resulted in a file with over 5.3 gigabytes of data. The data was edited, using surrounding topology of each hole in the information as a guide to fill everything in, and Scansite created a full-scale 3D print of the spacesuit, in 16 separate panels, on a Voxeljet 3D printer out of porous acrylic material. The sections were glued together to create the master model, which was then used to make a mold; finally, each replica was hand-sanded and painted, finished with a tough, autobody clear coat, and mounted on an engraved granite base.

3D Hubs Names Robert Schouwenburg as US Managing Director

Online manufacturing marketplace 3D Hubs announced that Robert Schouwenburg, the former COO & CTO of Shapeways, will be joining the company as its Managing Director for the USA. The company recently announced an $18 million funding round, which it’s been using to expand its team in the US, including opening a new North American headquarters at Chicago’s mHUB. Schouwenburg has over 20 years of experience in the industry, and will be working with the Chicago team to better service the company’s North American customer base, in addition to expanding 3D Hubs’ CNC machining services offering in Chicago.

“We’re at the start of ‘industry 4.0,’ an era when automation and data exchange will accelerate manufacturing technologies, and 3D Hubs is uniquely positioned to become a leader in this upcoming industrial revolution,” stated Schouwenburg.

DigiFabster Helps MakeItQuick Lower Costs and Increase Revenue

3D printing software and services provider DigiFabster recently released a case study about its customer MakeItQuick, a UK 3D printing service bureau. DigiFabster helps machine shops and service bureaus like MakeItQuick generate more new revenue, while lowering the cost of labor-intensive activities such as order entry, project management, and quoting. MakeItQuick teamed up with DigiFabster not long after it launched, and quickly started seeing results – the company was able to reduce quoting costs by up to 95% and order transaction costs by up to 85%. This allowed MakeItQuick to scale quickly and grow their revenues by 25% a month.

“The software handles 90% of our quotes without the need to manually review every part that is submitted. The time savings were immediately evident,” said Marco Massi, the owner of MakeItQuick.

“We save even more once a quote is confirmed. All the order details are at hand, giving us the opportunity to analyze the data and decide on the best way forward.

“In less than a year with DigiFabster, our revenue has grown steadily. We’re now experiencing a 25% monthly revenue increase, paving the way for our future success.”

IAM 3D HUB’s New Technological Partner

The latest technological partner of AM technology incubator IAM 3D HUB is ArcelorMittal, one of the world’s top steel and mining companies. The company, which has a presence in 60 countries and an industrial footprint in 18, will support the Barcelona-based hub with its technologies, materials, and knowledge to allow for new applications of and metal materials for 3D printing. The two share similar objectives, but ArcelorMittal hopes to use its experiences to contribute a new point of view.

ArcelorMittal’s membership in IAM 3D HUB will allow it to develop new metal 3D printing materials, as well as leverage the hub’s end-to-end solutions platform and work with stakeholders. By incorporating this company, the hub is welcoming a new member in the value chain of 3D printing “as a material developer.” It joins technological developers like HP, Renishaw, and Wacker Chemie, strategic partner Fira de Barcelona, and post-processing specialist Abrast by Coniex.

SmarTech Publishing: New Research Note on Metal Powder Bed Fusion

Less than a year ago, 3DPrint.com’s owner, 3DR Holdings, acquired an interest in industry analysis firm SmarTech Markets Publishing, and we continue to have a great relationship. If you’re ever interested in reading the firm’s latest data reports or market studies, you can find them all under the Research tab on our home page. Speaking of research, SmarTech’s VP of Research Scott Dunham, who has prepared the company’s Additive Manufacturing with Metal Powders Report for the last five years, recently released a research note on metal powder bed fusion, titled “Who Will Win (and Who Will Lose) the Metal PBF Marathon?”

“Despite what headlines, technologists, and marketing executives would have you believe, the metal 3D printing “race” is a marathon, not a sprint. To continue with the metaphor, we’re probably in about mile 10 of the race today –certainly not at the beginning anymore, but also quite a long way from the end. We are now about twenty three years since the first commercial metal powder bed fusion (PBF) systems came into view,” Dunham wrote.

“With so many closely comparable suppliers of metal PBF equipment now vying for market share, this begs the question, who has what it takes to make it? Everyone in the race today is working toward similar visions of an “Industry 4.0” future that hinges on metalworking going fully digital and highly automated from end to end, from prototyping all the way up to scaled production, with varying levels of customization capabilities based on industry needs along the way.”

Dunham goes on to list some of the technology’s “standout traits,” and names the company’s predictions on how the metal PBF race will turn out: which companies will be the front runners (EOS, GE Additive, Trumpf).

To learn more, check out SmarTech’s recently published “Powder Bed Fusion Markets, A Metal Additive Manufacturing Market Analysis.”

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

The post 3D Printing News Briefs: August 3, 2019 appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

ArcelorMittal to develop new 3D printable alloys within IAM 3D HUB

IAM 3D HUB, a shared work center for additive manufacturing in Barcelona, has announced that ArcelorMittal, a global steel and mining firm, has signed on as a new member in its ecosystem of companies. The inclusion of ArcelorMittal in the IAM 3D HUB will allow the company to provide the center with materials, technologies and […]

University of Sheffield joins €17 million INTEGRADDE project to accelerate industrial additive manufacturing

Researchers at the University of Sheffield have joined the INTEGRADDE project, a €17 million European consortium developing end-to-end solutions for Directed Energy Deposition (DED) processes in metalworking industries. The INTEGRADDE project or ‘Intelligent data-driven pipeline for the manufacturing of certified metal parts through Direct Energy Deposition’, is led by Spain’s AIMEN Centro Tecnológico and involves […]