CSIRO’s Keith McLean, Titomic’s Jeff Lang, and FTT’s Peter Mews sign agreement
Renowned for its metal Kinetic Fusion (TKF) technology, Australian 3D printing company Titomic recently signed an MoU with China’s largest manufacturer and global exporter of titanium powder in order to secure a high quality supply of low-cost, commercially pure titanium powders. It’s clear that the company is continuing to focus on titanium resources – it has licensed two new patents from the Commonwealth Scientific and Industrial Research Organisation (CSIRO) for the production of titanium pipe and continuous pipe. This Exclusive License Agreement with CSIRO gives Titomic global rights to the patents, which will significantly open the company’s revenue opportunities in several industries, like defense, marine and mining, and oil and gas.
Additionally, Titomic has signed an Acquisition Agreement with Future Titanium Technologies (FTT). The company is now entitled to over eight years of exclusive 3D printing techniques and background IP relating to the production of pipes and their components.
“This is a significant expansion of Titomic’s IP and associated revenue opportunities. By adding these two new patents we are broadening our footprint in the Titanium and Titanium Alloys Additive Manufacturing space to firmly secure our future market segments,” said Titomic’s Managing Director Jeff Lang.
“Our fundamental strategy has been well timed and managed to perfectly combine the securing of cost-effective metal powder supply chain, with the expansion of our IP portfolio positioning Titomic as the global leader in viable metal Additive Manufacturing.
“To capitalise on the significant $300+ Billion global interest Titomic has received from the Oil & Gas, Mining, and Marine industries to provide more sustainable and cost-effective AM manufacturing, these new TKF technologies enable Titomic to provide viable digital manufacturing capabilities leading to significant short, mid and long-term revenue opportunities.”
Titomic’s fast 3D printing technology, which is actually the result of a CSIRO study, can now be used by industries looking to access next generation, dual-wall materials to 3D print metal pipe without having to worry about profile or size constraints.
For instance, the oil and gas industry is uses plenty of valves, but their lifecycle can be negatively impacted by abrasive matter like rock, sand, and sediments that run through pipes during extraction. Using these newly licensed patents, Titomic can use its technology to produce metal pipes with higher corrosion and wear resistant properties; additionally, the process can also fuse dissimilar metals together to make fitting components and pipes.
“Working with companies like Titomic shows that manufacturing remains a key driver in the Australian economy,” said Stefan Gulizia, Research Group Leader at CSIRO. “We are pleased that Titomic are licensing the rights to utilise and further commercialise CSIRO research in developing new products and processes that go towards supporting productivity gains, boosting sustainability and helping capture emerging opportunities in local and global markets.”
Thanks to the important performance factors like cost, quality, scale, speed, and sustainability, Titomic will now be able to commercially exploit its TKF technology. Pipe and fitting component consumers will be able to save on both time and money, as maintenance costs and down time will decrease and parts will have longer life cycles. Additionally, TKF can also be used to 3D print valves, fitting components, and pipes with new superalloys, and can even combine them with polymers, composites, ceramics, and alloys to achieve high performance properties.
McLean, Lang, and Mews holding the sprayed pipe section.
The most important transaction terms of the new Acquisition Agreement with FTT include Titomic allotting $400,000 worth of its shares to FTT shareholders for $2.00 per share, half of which will be escrowed for a year. For every two shares, Titomic will also issue one new option to FTT shareholders, at an excerisable price set at a 130% premium to the share price with a two-year life.
In terms of its Exclusive License Agreement with CSIRO, Titomic will pay the following minimum annual royalties to CSIRO:
$50,000 for 2018-2019
$75,000 for 2019-2020 and 2020-2021
$150,000 for 4th year of agreement, and each subsequent agreement year until the end of the license term
CSIROs Keith McLean, Titomic’s Jeff Lang, and FTT’s Peter Mews celebrate the collaboration.
Additionally, Titomic will pay CSIRO an upfront fee of $125,000 cash for licensing the technologies.
The Institute for Technology-Inspired Regenerative Medicine (MERLN) at Maastricht University in the Netherlands works to be a leader in the biomedical engineering field by training an interdisciplinary generation of scientists and conducting innovative research. The institute is on a mission to maximize public outreach in the field through the development and commercialization of important research, and its vision is focused on ambition, infrastructure, and knowledge sharing.
That is why MERLN is happy to announce that it will be starting a collaboration with Canada-based Aspect Biosystems, one of the major biotechnology companies in terms of tissue engineering and 3D bioprinting. Aspect is also well known for its microfluidic 3D printing technology, which is helping to pave the way for new advancements in understanding regenerative medicine, fundamental biology, disease research, and developing novel therapeutics.
Privately held company Aspect works to strategically partner up with pharmaceutical and biotechnology companies, in addition to academic researchers like the ones at MERLN, in order to develop commercially and physiologically relevant tissues. Aspect then uses these tissues to help speed up the discovery and development of new therapies and drugs.
As part of this collaboration, an RX1 Bioprinting Platform by Aspect will be placed inside Professor Lorenzo Moroni’s Lab at the university. There, Dr. Carlos Mota, the head of bioprinting research, will put it to good use developing 3D bioprinted kidney tissue.
“At Aspect, we are committed to collaborating with leading research groups in tissue engineering and regenerative medicine to realize the broad applicability of our technology. Patients on life-saving, but onerous, dialysis treatment are often found waiting for donor organs that are severely limited in supply. Tissue engineers recognize the potential of their work to alleviate this problem, but kidney tissue is complex and extremely challenging to create,” said Tamer Mohamed, the President and CEO of Aspect Biosystems. “There is also a strong need for suitable pre-clinical in vitro kidney models to predict nephrotoxicity and study disease in the biopharmaceutical industry. By combining the deep expertise at MERLN with our microfluidic 3D printing technology, we are increasing our capacity to tackle these kidney-related challenges head-on.”
The Moroni Lab, a research group that’s part of the MERLN institute, was originally founded at the University of Twente in 2009 for the purposes of using biofabrication to control the fate of cells. Now, it has multiple local and international collaborations.
As part of the terms of the collaborative research agreement with the university, Aspect will now have the option to continue developing and commercializing its products based on the results of its joint research with Maastricht University.
“This is an exciting opportunity. Aspect’s microfluidic bioprinting technology is very appealing from a flexibility and modularity perspective,” said Professor Moroni and Dr. Mota. “At Maastricht University, we have been investing a lot of energy in developing 3D bioprinted in vitro models, which we consider a first immediate step in gaining the knowledge needed for developing regenerative medicine solutions for complex tissue and organ replacement. We already took our first steps in kidney tissue models and we are particularly excited to apply our expertise with Aspect’s platform technology and join forces with their innovative team, which we expect will accelerate our findings and impact in this space.”
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3D printing has played an important role in many industries over the past year, such as medical, education, and aerospace. It would take a very long time to list all of the amazing news in aerospace 3D printing in 2018, which is why we’ve chosen our top 10 stories for you about 3D printing in the aerospace industry and put them all in a single article.
Sintavia Received Approval to 3D Print Production Parts for Honeywell Aerospace
Boeing, the world’s largest aerospace company, signed a five-year collaboration agreement with Swiss technology and engineering group Oerlikon to develop standard processes and materials for metal 3D printing. Together, the two companies will use the data resulting from their agreement to support the creation of standard titanium 3D printing processes, in addition to the qualification of AM suppliers that will produce metallic components through a variety of different materials and machines. Their research will focus first on industrializing titanium powder bed fusion, as well as making sure that any parts made with the process will meet the necessary flight requirements of both the FAA and the Department of Defense.
FITNIK Launched Operations in Russia
In 2017, FIT AG, a German provider of rapid prototyping and additive design and manufacturing (ADM) services, began working with Russian research and engineering company NIK Ltd. to open up the country’s market for aerospace additive manufacturing. FIT and NIK started a new joint venture company, dubbed FITNIK, which combines the best of what both companies offer. In the winter of 2018, FITNIK finally launched its operations in the strategic location of Zhukovsky, which is an important aircraft R&D center.
New Polymer 3D Printing Standards for Aerospace Industry
The National Institute for Aviation Research (NIAR) at Wichita State University (WSU), which is the country’s largest university aviation R&D institution, announced that it would be helping to create new technical standard documents for polymer 3D printing in the aerospace industry, together with the Polymer Additive Manufacturing (AMS AM-P) Subcommittee of global engineering organization SAE International. These new technical standard documents are supporting the industry’s interest in qualifying 3D printed polymer parts, as well as providing quality assurance provisions and technical requirements for the material feedstock characterization and FDM process that will be used to 3D print high-quality aerospace parts with Stratasys ULTEM 9085 and ULTEM 1010.
Premium AEROTEC Acquired APWORKS
Metal 3D printing expert and Airbus subsidiary APWORKS announced in April that it had been acquired as a subsidiary by aerostructures supplier Premium AEROTEC. Premium AEROTEC will be the sole shareholder, with APWORKS maintaining its own market presence as an independent company. Combining the two companies gave clients access to 11 production units and a wide variety of materials.
Gefertec’s Wire-Feed 3D Printing Developed for Aerospace
Gefertec, which uses wire as the feedstock for its patented 3DMP technology, worked with the Bremer Institut für Angewandte Strahltechnik GmbH (BIAS) to qualify its wire-feed 3D printing method to produce large structural aerospace components. The research took place as part of collaborative project REGIS, which includes several different partners from the aerospace industry, other research institutions, and machine manufacturers. Germany’s Federal Ministry for Economic Affairs and Energy funded the project, which investigated the influence of shielding gas content and heat input on the mechanical properties of titanium and aluminium components.
Research Into Embedded QR Codes for Aerospace 3D Printing
It’s been predicted that by 2021, 75% of new commercial and military aircraft will contain 3D printed parts, so it’s vitally important to find a way to ensure that 3D printed components are genuine, and not counterfeit. A group of researchers from the NYU Tandon School of Engineering came up with a way to protect part integrity by converting QR codes, bar codes, and other passive tags into 3D features that are hidden inside 3D printed objects. The researchers explained in a paper how they were able to embed the codes in a way that they would neither compromise the integrity of the 3D printed object or be obvious to any counterfeiters attempting to reverse engineer the part.
Lockheed Martin Received Contract for Developing Aerospace 3D Printing
Aerospace company Lockheed Martin, the world’s largest defense contractor, was granted a $5.8 million contract with the Office of Naval Research to help further develop 3D printing for the aerospace industry. Together, the two will investigate the use of artificial intelligence in training robots to independently oversee the 3D printing of complex aerospace components.
BeAM And PFW Aerospace Qualified 3D Printed Aerospace Component
BeAM, well-known for its Directed Energy Deposition (DED) technology, announced a new partnership with German company PFW Aerospace, which supplies systems and components for all civilian Airbus models and the Boeing 737 Dreamliner. Together, the two worked to qualify a 3D printed aerospace component, made out of the Ti6Al4V alloy, for a large civil passenger aircraft, in addition to industrializing BeAM’s DED process to manufacture series components and testing the applicability of the method to machined titanium components and complex welding designs.
Researchers Qualified 3D Printed Aerospace Brackets
Speaking of parts qualification, a team of researchers completed a feasibility study of the Thermoelastic Stress Analysis (TSA) on a titanium alloy space bracket made with Electron Beam Melting (EBM) 3D printing, in order to ensure that its mechanical behavior and other qualities were acceptable. The researchers developed a methodology, which was implemented on a titanium based-alloy satellite bracket.
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This week, GE Additive announced that it has signed a major Memorandum of Understanding (MoU) with the University of Sydney, which includes a master research agreement. Per the agreement, GE Additive will support the university’s vision to create the first metal 3D printing ecosystem in Australia, and will invest a maximum of $1 million in research and development efforts annually over the next ten years to help speed up 3D printing adoption in the region and set up the necessary people and technology to drive education, commercial and economic opportunity, skills and job development, and research.
Debbra Rogers, Chief Commercial Officer, GE Additive, said, “We were immediately impressed by the University of Sydney’s vision for additive manufacturing – not just at an academic level, but also because they understand the positive impact this technology can have on Australia’s economy and its workforce in the very near future.
“Additive requires a completely different way of engineering and thinking. Educating and training current workforces with new skills and also getting more engineers into additive takes time and programs need to be developed over a number of years. The University of Sydney recognises this and that in order to build the right mindset, the right skills, the right materials we need to encourage close collaboration between companies, academia and governments.”
The university is actively working to provide intellectual leadership in 3D printing over the next ten years, and this new MoU reinforces its commitment to build a 1,000 square meter Additive Manufacturing and Advanced Materials Processing research facility, which will end up acting as a “focal point,” as GE Additive calls it, for the partnership.
Professor Simon Ringer, the Director of Core Research Facilities at the University of Sydney, said, “This addition to the University’s core research facilities will allow our researchers and research partners to conduct trail-blazing fundamental research, and will directly benefit Australian industry, particularly our aerospace, transport, biomedical and defence sectors.
“We are creating an environment for our researchers to explore the limits of what materials can do, how they are structured, and how to make them. Establishing a world-class capability in Darlington/ Camperdown is a key first step for our grand plans for Advanced Manufacturing in Paramatta/Westmead.”
Additionally, the university will also make an investment in current, and future, GE Additive technologies under the terms of the MoU.
The university’s Vice-Chancellor and Principal Dr Michael Spence said, “This MoU builds on the University’s world-class expertise in the disciplines essential to advanced manufacturing such as materials engineering and integrated digital systems.
“By partnering with GE Additive, an industry leader in additive manufacturing, we can set the agenda for this disruptive technology and ensure that Australia is primed to both participate in, and contribute to, this exciting next phase of the industrial revolution. The collaboration will drive the R&D needed to learn how this disruption to manufacturing can be harnessed for economic benefit. We are especially delighted that this initiative aligns with our plan to establish a new campus at Parramatta/ Westmead, where advanced manufacturing will be a key focus.”
GE Additive and the University of Sydney will also cooperate on developing new applications, as well as potentially new 3D printing industries, to drive positive economic and commercial impact. GE Additive’s funding will help expand upon the university’s current materials science and advanced manufacturing research infrastructure and capabilities by helping to increase new R&D efforts into analytics, material and powder technologies, and sensing. Both will also enjoy bilateral access to the other’s networks of academic, government, and industry stakeholders.
L-R: Debbra Rogers, chief commercial officer, GE Additive; Professor Laurent Rivory, Pro-Vice- Chancellor (Research), University of Sydney; Christine Furstoss, chief technology officer, GE Additive; and Dr. Michael Spence, Vice-Chancellor and Principal of University of Sydney
The aforementioned master research agreement, which was agreed to within the terms of the MoU, will cover three separate areas:
Image processing and data analytics
Materials and powder technologies, such as alloy design and modification, post-processing optimization, and materials gaps in repairs
Sensing technologies and advanced materials characterization
This last area will build on the university’s existing experience with electron microscopy and the electron beam melting (EBM) technology developed by GE Additive company Arcam.
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We’re sharing stories about events, business, and metal 3D printing in today’s 3D Printing News Briefs. To start, the second annual Iran 3DShow is coming up, along with IQPC’s fifth Additive Manufacturing for Aerospace & Space event in London. Moving on to business, Carbon has an announcement about a new executive, Sigma Labs has joined an R&D collaboration with Fraunhofer IAPT, and Xometry is now offering instant quotes on parts 3D printed with HP’s Multi Jet Fusion technology. Finally, Markforged is presenting a closer look at the process behind the Metal X.
Second Annual Iran 3DShow
Last year, the country of Iran hosted its first 3D printing trade show, originally called the Additive Manufacturing Symposium before the name was changed to Iran 3D Show. Now, the country is gearing up for the second annual event, which will be held at the Book Garden in Tehran from December 5-7. The Vice-Presidency for Science and Technology of Iran is holding the event, with the Iran Institute of Additive Manufacturing acting as the execution team and organizer. There will be a 3D printing competition for teachers and students, and the trade show itself is made up of three additional sub-events, called “The 2nd Exhibition of 3D Printing Industry.”
“This event is not only good for the ones who are trying to observe the market here, but also suits the international companies to join and involve,” said Seyyed Amir Ghaffari, the Managing Director of Iran 3D Show.
Fifth Additive Manufacturing for Aerospace & Space
Aligned to support the UK’s national AM strategy, the fifth Additive Manufacturing for Aerospace and Space conference by IQPC will be held in London from February 26-28, 2019; last year the forum was hosted in Munich. The conference helps attendees take on the roadblocks to adopting 3D printing and other industrial digitalization practices. The event provides content that helps 3D printing users exploit economic returns and performance gains provided by the technology. In addition, Airbus will be hosting a visit to its nearby Space Systems facility during the conference.
“Now entering its 5th year, the conference has fast established itself as the premium forum for AM users, R&D experts and industry partners within the aerospace and space industry,” Olivia Timmins, Senior Marketing Manager for IQPC, told 3DPrint.com. “This year is no different with expert speaker line up from Thales, MTC, ESA, Airbus, Safran and more.”
If you register by Saturday, December 15th, you can even save up to £300 of the total cost.
Carbon Announces New Company Executive
Dara Treseder
Silicon Valley-based Carbon has announced a new executive, as Dara Treseder joins the company as the Chief Marketing Officer (CMO). The former CMO for GE Business Innovations and GE Ventures, Treseder is charged with finding new ways to showcase the company’s story at scale; with her excellent record, this should not be too challenging. This year, Treseder, who is also the co-founder of consulting firm NeuBridges, was featured by Forbes as a CMO Next, and in 2017, she was recognized on AdAge as one of the Women to Watch and by Inc. as one of the 30 Inspirational Women to Watch in Tech. Additionally, she is a sought-after speaker and writer on many subjects, including marketing, growth, innovation, and creating more diverse workplaces.
“I am deeply inspired by Carbon’s vision and values and excited to be part of a trailblazing team that is redefining digital manufacturing and creating the industry’s future. As chief marketing officer, I am looking forward to advancing Carbon’s brand, strengthening our customer connections, and rapidly scaling our global growth,” Treseder said.
Treseder is coming on board as Carbon works to strengthen its leadership team, and will support the growing company’s mission to keep driving the manufacturing industry’s digital transformation.
Sigma Labs Partners with Fraunhofer IAPT
John Rice and Prof. Dr.-Ing. Claus Emmelmann
This week, the Fraunhofer Research Institution for Additive Manufacturing Technologies (IAPT) and Sigma Labs, Inc., which provides quality assurance software under the PrintRite3D brand, announced a new collaborative research and development agreement that will focus on the industrialization of additive manufacturing. At last month’s formnext 2018 in Germany, John Rice, the CEO of Sigma Labs, and Prof. Dr.-Ing. Claus Emmelmann, the Managing Director of Fraunhofer IAPT, signed the joint agreement. As part of the agreement between the two, Sigma Labs will be upgrading Fraunhofer IAPT’s current PrintRite3D system.
“The aim of this collaboration is to test and validate the use of the PrintRite3D system to identify and quantify machine and process inconsistencies as well as flag defect thermal signatures during the laser melting process, and correlate them to CT scan results. Ultimately, this will allow users to reduce scrap, increase productivity and reduce post-process inspection costs,” said Rice.
Xometry Offering Instant Quotes on Multi Jet Fusion Parts
On-demand manufacturing platform Xometry has only been in business for five years, but it is releasing news at a fast clip. This summer, the company also introduced a new version of its Instant Quoting Engine, which included several new and enhanced features to offer customers instant quotes for CNC machining, sheet metal fabrication, urethane casting, and several 3D printing processes, including SLS, FDM, PolyJet, and DMLS.
Now, Xometry has announced that it will be offering instant quotes on custom parts made with HP’s fast Multi Jet Fusion technology. As always, simply drag and drop your 3D models into the Instant Quoting Engine, select your process and materials (if you so choose), and Xometry will do the rest, analyzing the model’s geometry and providing an instant price, design feedback, and delivery date.
Markforged Metal X 3D Printer Process
Last winter at CES 2017, Markforged introduced its Metal X, which is the company’s first 3D printer to leverage its Atomic Diffusion Additive Manufacturing, or ADAM, metal 3D printing technology. This spring, Markforged began shipping the Metal X to customers and resellers, and announced early last month that it had shipped over 100 machines, with an expectation of doubling that number by the end of 2018.
As we get closer to the end of the year, and Markforged works to achieve this goal, the company is giving the world a closer look at the innovative process behind its Metal X, with the publication of a time-lapse video on YouTube that shows all seven steps of the process, starting with the actual 3D printing of a part, removing and washing it, and ending with part manipulation, in less than two minutes. Take a look at the video below to see it for yourself:
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Buckle your seat belts, because we’ve got a of news to share with you in today’s 3D Printing News Briefs, starting with more event announcements and moving on to several new partnerships, a workshop, and a 3D printing project. Nanogrande introduced its new 3D printer for nanometer metallic particles at Fabtech this week, while Sartomer and Nanoe are launching new 3D printing innovations at formnext. Creatz3D is working to accelerate ceramics 3D printing in Singapore, while partnerships were announced between Valuechain and Clad Korea, PostProcess and Rösler, and Additive Manufacturing Technologies and Mitsubishi Electric. Finally, two Fraunhofer Institutes are hosting an AM materials workshop, and a maker from YouTube channel Potent Printables is sharing a new project.
Nanogrande Introduced First 3D Printer for Nanometer Metallic Particles
At FABTECH 2018 in Atlanta this week, Nanogrande officially introduced its new 3D printer. The MPL-1, enabled with the company’s Power Layering Technology, is actually the first nanoscale 3D printer for metallic particles in the world, and could successfully open up new 3D printing horizons. Nanogrande has spent years working to develop the new 3D printer.
“Power Layering, while maximizing particle compaction, allows MPL-1 to use particles of all shapes, sizes and types. With this approach, we can easily print with particles as small as a nanometer, but also particles of 5 microns, what the industrial sector is currently seeking. At this size, the particles stick to each other, virtually eliminating the need for support structures typical to 3D printing. In this way, there is a considerable reduction in post- printing costs,” said Juan Schneider, the President and Founder of Nanogrande.
“Today we are witnessing the culmination of a long process of research and development that has given us the chance to set up a team that generates many innovative ideas. Alone, it is possible to have excellent ideas; but, as a team, we can bring these ideas to life. I am very pleased to highlight the success of the efforts of the people who work for Nanogrande.”
Sartomer Europe Introducing New UV-Curable Resins
At formnext in Frankfurt next week, the European division of specialty chemical supplier Sartomer, a business unit of Arkema, will be launching new products in its N3xtDimension line of UV-curable engineered resins as part of its new commercial 3D printing-dedicated platform. The new materials will help companies fulfill performance and regulatory requirements for multiple industrial applications, thanks to their excellent tunability and mechanical properties. At its booth H58 in Hall 3.1 at formnext, Sartomer will introduce N3D I-2105, with impact resistance for manufacturing functional parts; N3D-F2115, which can achieve varying levels of flexibility depending on post treatment; and N3D P-2125, which is perfect for prototyping with its homogeneous network and limited evolution of mechanical properties after post-curing is complete.
“We are addressing the needs of demanding and innovative 3D printing markets by partnering with global leaders to deliver custom material solutions for end-use applications. Through our range of products and services dedicated to additive manufacturing, we are supporting the 3D printing sector as it grows and continues to develop new applications,” said Sumeet Jain, the Global Director for 3D Printing Business at Sartomer.
Nanoe Launches Ceramic and Metal 3D Printer
In other formnext news, French company Nanoe, which is a leader in high-tech raw materials and also specializes in ceramics 3D printing, will be introducing its new Zetaprint system for desktop 3D printing of ceramic and metal materials. The team will perform a live demonstration of the 3D printer at the event, and explain the full 3D printing, debinding, and sintering process.
Additionally, the company will be launching its new stainless steel 16L Zetamix filament. These filaments, made up of a ceramic or metal powder and a polymer matrix, can be used to make high density parts in any FDM 3D printer. Nanoe, which is also developing materials in Inconel and titanium, will also soon be launching a complete line of adapted FDM 3D printers. Visit the company at booth A74 in Hall 3.0 next week at formnext to see a live Zetaprint demonstration and 3D printed parts in various Zetamix materials.
Creatz3D Accelerating Ceramics 3D Printing in Singapore
Speaking of ceramics, Creatz3D Ceramics Service Bureau is dedicated to 3D printing ceramics parts. Founded last year, its parent company is Singapore-based 3D printer and AM software solutions seller Creatz3D, which partnered with 3DCeram Sinto in Limoges to create the service. This partnership, signed in 2016, facilitated the first installation in Singapore of 3DCeram Sinto’s Ceramaker 900 Ceramic 3D printer, at the Advanced Remanufacturing Technology Centre. The Creatz3D Ceramics Service Bureau, which offers diverse material options and a hassle-free experience, is the first, and only, ceramics-focused 3D printing service in the country, and is helping to increase awareness and adoption of ceramics for 3D printing.
“The addition of ceramics to Creatz3D’s portfolio ensures that they stay ahead of the pack in the competitive 3D printing landscape, and their expertise can demonstrate the game-changing capabilities that the technology has to offer to help advance design, engineering, and manufacturing,” said Sean Looi, the General Manager of Creatz3D.
Valuechain Signs Strategic Partnership with Clad Korea
British technology company Valuechain reports that it has signed a strategic partnership with manufacturing company Clad Korea, in order to digitalize 3D printing in East Asia. Both companies will be able to grow their association together in the initial agreement, in addition to bringing Valuechain’s solutions, including its flagship DNA am production control software, to the East Asian AM marketplace. This software addresses 3D printing production process niche requirements, like powder traceability and managing AM build plans.
“Valuechain’s DNA am technology is a unique offering to the market, with great potential to enable rapid and mass production of additive manufactured parts. As we look to enter the additive manufacturing market ourselves, we believe this product will give us a competitive advantage in the industry, and we’re excited to be able to contribute to the growth of this technology in Asia by helping to deliver this solution throughout South Korea,” said Brandon Lee, the CEO of Clad Korea Co. Ltd.
PostProcess Technologies Partnering with Rösler
Moving on with strategic partnerships in the 3D printing world, PostProcess Technologies Inc., a pioneer of software-drive 3D post-processing solutions, is working with Rösler Oberflächentechnik GmbH, which sells finishing systems for traditional manufacturing, to bring automated, intelligent post-print solutions to Europe. Rösler will provide PostProcess’ data-driven support removal and surface finishing solutions for 3D printing to the European market, making it the only surface finishing supplier that will be providing solutions tailored to the needs of both traditional and additive manufacturing. The two companies will debut their partnership next week at formnext, with PostProcess’ technology on display in its booth H68, as well as Rösler’s booth E20, both of which are in Hall 3.0.
“The additive space is rapidly growing, especially in Europe, and as such, the demand for an automated post-printing solution is accelerating. Rösler is a unique partner for PostProcess, bringing expertise in finishing systems with a broad European footprint, thousands of existing customers, and a strong presence across a range of industries that will greatly benefit from PostProcess’ proprietary and integrated software, hardware, and chemistry solution,” said Bruno Bourguet, the Managing Director for PostProcess Technologies.
Additive Manufacturing Technologies Announces Partnership with Mitsubishi Electric
Sheffield-based Additive Manufacturing Technologies Ltd (AMT) has entered into a partnership with Mitsubishi Electric in order to further develop its PostPro3D system with an integrated automation solution, which could provide a major productivity boost for 3D print post-processing. This new solution is based on Mitsubishi Electric’s MELSEC iQ-F Series compact PLC, HMIs, SCADA and MELFA articulated arm robots. While PostPro3D is already pretty impressive, with its ability to automatically smooth an object’s surface to 1μm precision, AMT wanted to further develop the system with certified automation products so it would be suitable for Industry 4.0. Now, PostPro3D is equipped with a Mitsubishi Electric power supply and low voltage switchgear, servo drives and motors, FR-D700 frequency inverters and the optional six-axis robot arm.
“To realise our concept, we needed an automation partner that could provide the whole range of machine control systems, as well as the actual robotics. This is fundamental to truly integrate our machine into the production line of the future as well as to benefit from a lean, single vendor distribution model,” explained Joseph Crabtree, CEO at AMT.
“Mitsubishi Electric was the clear choice because it offers a one stop shop for state-of-the-art automation solutions. In this way, we can be sure that the different components are compatible and can share data. Overall, the company can offer us products that adhere to UL, CE as well as Industry 4.0 requirements.”
Fraunhofer AM Materials Workshop
On November 29 and 30 in Dresden, Germany, Fraunhofer IKTS and Fraunhofer IWS are holding a workshop called “Hybrid materials and additive manufacturing processes.” The two institutes are working together to organize the workshop, which will be held in English and discuss innovative technologies for 3D printing metallic and ceramic components, in addition to application-specific manufacturing of material hybrids. Participants in the workshop’s practical insight sessions will be able to see diverse AM devices for multimaterial approaches live and in action.
“Why is that interesting? Additive manufacturing technologies for material hybrids open up new possibilities in production for diverse industrial branches,” Annika Ballin, Press and Public Relations for Fraunhofer IKTS, told 3DPrint.com. “It is not only possible to realize complex geometries, but also to functionalize components (sensors, heaters), to individualize production (labeling, inscriptions) and to combine different materials properties in one component (conductive/insulating, dense/porous etc.).”
The workshop, which costs €750, will be held at Fraunhofer Institute Center Dresden, and registration will continue until November 22.
DIY 3D Printed Linear Servo Actuators by Potent Printables
A maker named Ali, who runs the Potent Printables YouTube channel, recently completed a neat design project – 3D printed linear actuators. Ali, who was partly inspired by a Hackaday post, said that the project has received a great response on both Twitter and Instagram. He designed the parts in SOLIDWORKS, and controls them with an Arduino Uno. The simple rack-and-pinion design, perfect for light loads, comes in two sizes for different space constraints and force outputs.
“Each design has a pinion that has to be glued to a servo horn, and a selection of rack lengths to suit your needs,” Dan Maloney wrote in a new Hackaday post about Ali’s project. “The printed parts are nothing fancy, but seem to have material in the right places to bear the loads these actuators will encounter.”
Check out the video below to see the 3D printed linear actuators for yourself:
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In this month’s first edition of 3D Printing News Briefs, we’re starting again with news about formnext, before moving on to other business news, a medical story, and a case study. Mimaki will be bringing over 10 million colors to formnext, and M. Holland has signed a distribution agreement with 3DXTECH. Some exciting medical news out of South Korea – the country’s first chest transplant using 3D printing has been successfully completed. Finally, LulzBot published a case study about its work to help produce a haunting stop-motion animation short film.
Mimaki Showcasing Over 10 Million Colors at formnext
At formnext in Frankfurt later this month, Mimaki will be bringing its advanced, full-color 3D printing technology, under the theme of ‘Shape the Future in Colour.’ Its 3DUJ-553 3D printer, which offers consistent results in over 10 million colors, will be running live during the event so visitors can see the super fine, photorealistic detail it offers. In addition, through a collaborative project with Materialise, Mimaki’s 3D printed models are currently available under the name Multicolor+ through i.materialise. These models, 3D printed in UV-cured photopolymer resins with inkjet printing heads, have a strength that’s higher than other color 3D printing technologies and can be handled directly off the 500 x 500 x 300 mm build plate of the 3DUJ-553.
“Materialise is currently trialling Mimaki’s full-colour 3D printing technology. The material, Multicolor+, allows us to create smooth surfaces with vibrant colours that enhance the value of a finished object. Multicolor+ offers more vivid and intense colours and enables stronger, sturdier materials with a minimum wall thickness of 1mm. It also allows for printing interlocking parts. As a result, Multicolor+ is ideal for printing decorative parts such as figurines, avatars and architectural models,” said Miranda Bastijns, Materialise Director Manufacturing Online.
Come see Mimaki’s full-color 3D printing capabilities for yourself at booth D26 in Hall 3.1 at formnext, November 13-16.
M. Holland Signs New Distribution Agreement
This spring, international thermoplastic resins distributor M. Holland signed its first 3D printing product distribution agreement with Owens Corning to sell the company’s XSTRAND product line. Now, the company has announced that it signed its second distribution agreement, this time with Michigan-based manufacturer and supplier of high-performance 3D printing materials and parts 3DXTECH. This agreement will provide M. Holland’s industrial manufacturing clients with access to a larger team of commercial and technical support resources, in addition to adding over 24 materials, like carbon fiber and fire-retardant materials, to the company’s current 3D printing product portfolio.
“At M. Holland, our mission is to give our industrial clients agnostic advice about how to integrate 3D printing into their operations to create value. The 3DXTECH product line gives us a full portfolio of high quality, engineering-grade materials, which we can marry with objective recommendations about methods and machinery to deliver the optimal solutions to our clients,” said Haleyanne Freedman, M. Holland’s global 3D printing and additive manufacturing engineering specialist.
South Korea Completes First Local Chest Transplant Using 3D Printing
3D printed sternum model
A 55-year-old man, who chooses to remain anonymous, has just received the first chest transplant using 3D printing in the country of South Korea. Following Spain, Italy, the US, Britain, and China, this makes it the sixth nation in the world to complete this amazing medical innovation. The patient had a malignant tumor in his thorax, and while he’d had four other surgeries and anti-cancer drugs in the past, these conventional methods did not ultimately work, and the cancer returned to his body.
“All of a sudden, the patient once again was feeling pain, and the lump on his chest became clearly visible. This meant the cancer had grown resistant,” explained Professor Park Byung-Joon with Chung-Ang University Hospital. ” We felt the new treatment was necessary and so we had to perform surgery urgently.”
He knew that 3D printing could help customize treatments for patients. Together with the rest of his team, Professor Park created a 3D printed breastbone for the patient that would have been nearly impossible to create with other methods of manufacturing. The hope is that this 3D printed chest transplant will help spur additional innovation in South Korea.
To learn more, watch the video below:
LulzBot Helps Produce Stop-Motion Animation
Dale Hayward and Sylvie Trouvé of Montreal-based See Creature Animation, together with the National Film Board of Canada, have been working together for the past three years to produce the short film Bone Mother, a stop-motion animation version of the Slavic folklore tale of the witch Baba Yaga. For the first time, See Creature decided to use 3D printing, and chose the LulzBot Mini as the affordable, reliable machine they needed to create nearly the entire film with 3D printing. Then, the team decided to add three more to the studio, due to how much 3D printing was required – over 1,500 unique faces were needed, and See Creature used woodfill PLA by colorFabb, with a light infill, to make them. Adjustments were also made to reduce print precision, as one character needed plenty of wrinkles.
“Our main character, Baba Yaga is an ancient witch and naturally she should have wrinkles. So instead of sculpting them into the computer model, we found that if we print the face lying down, the layers look like a topographical map and the print naturally accentuated the curves of her face, creating a lot of the wrinkles for us,” Hayward explained. “We loved the look and it fit her character so much that we actually lowered the resolution to get even more stepping.”
“Where technology has forced traditional hand-drawn animation to adapt or fade away, stop-motion has always ridden the tech wave, so much so that there has become a renaissance of stop-motion films over the last decade. This is attributed to technologies like 3D printing…. they have opened the doors to greater creative possibilities at a lower budget.”
Bone Mother, which clocks in at less than nine minutes, recently premiered in Toronto. See it for yourself below:
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We’re starting off with some news about products being displayed at the upcoming formnext in today’s 3D Printing News Briefs, and then moving on to business and research news. Clariant and Xaar have both revealed what they will be showcasing at formnext 2018 in Munich next month. Aurora Metals has announced a new partnership, while Lockheed Martin is the first organization to have an additive manufacturing facility certified to UL 3400 for AM hazards. Finally, America Makes has announced its next Directed Project Opportunity.
Clariant Presenting Industrial 3D Printing Materials at formnext
This year’s formnext is coming up in just a few short weeks, and companies all over the world are announcing what products they’ll be bringing with them to the show. Specialty chemicals company Clariant will be showcasing its 3D printing materials and solutions for intelligent industrial manufacturing at the event this year, including featured materials like polyamides for small lot production, customer-tailored colorant and additive guidance, and high impact strength materials that offer electrostatic discharge protection for manufacturing aids.
“OEMs require that 3D printing materials perform at the same level as their injection molded counterparts. This was the significant factor in achieving the acceptance to allow product production with our materials and will continue to be,” said Joanna Marguier, Senior Manager of R&D for Clariant’s 3D printing business. “From the inception of our 3D printing business, Clariant has focused on providing superior 3D printing materials that achieve the customer’s requirements for their specific application. We work closely with them to tailor solutions to meet their needs.”
Marguier will also be outlining the company’s success with flame retardants in a technical presentation at formnext on November 15. formnext runs November 13-16, and you can visit the Clariant team at booth 3.1-H40 in Hall 3.1 at the Messe Frankfurt.
Xaar Showcasing Latest Inkjet Printhead Technology at formnext
Speaking of formnext, digital inkjet technology Xaar will be exhibiting the latest in inkjet printhead technology at the show. Visitors can learn how the company’s award-winning High Laydown (HL) technology, which allows for the jetting of 3D fluids with high viscosity (at least 55cP), coupled with its partnerships with other industry leaders, can help its customers get ahead in volume 3D printing. Xaar will also be displaying samples that were produced with high viscosity photoresins from BASF 3D Printing Solutions
“The formnext show is a major global event for the 3D Printing sector and we are excited to be exhibiting our complete printhead portfolio and HL Technology for volume 3D production. We pride ourselves on providing ongoing support to all our customers’ projects – from early fluid evaluation through to commercialisation. That’s why we are welcoming manufacturers and integrators to visit the Xaar stand and discover how our printhead technology can help them introduce new printers quickly and cost-effectively, thereby delivering a true competitive edge and real value to 3D end- users,” said Simon Kirk, Senior Product Manager at Xaar.
You can visit Xaar at formnext at booth A78 in Hall 3.1
Aurora Labs Partnering with Fortescue Metals Group
Aurora Labs’ managing director David Budge. [Image: Ross Swanborough]
Australian metal 3D printing Aurora Labs has signed a preliminary non-binding term sheet agreement with fellow Australian company Fortescue Metals Group. The agreement comprises an Industry Partner Program, and Aurora Labs will work with Fortescue to demonstrate the potential for application of its Rapid Manufacturing Technology (RMT) in the mining industry. The terms of the agreement are for an initial 12 months and may be extended by mutual agreement, and Aurora believes that the venture could even progress further to developing technology together in order to lower operation and production costs in the mining industry.
“We’re very excited to sign a preliminary agreement with Fortescue, and pursue the opportunity to apply Aurora’s Rapid Manufacturing Technology to the mining sector,” said David Budge, Aurora Labs’ Managing Director. “Fortescue are an ideal industry partner for us and they are at the forefront of technological advancements in the mining sector.”
Lockheed Martin Certified UL 3400
Top global safety science company UL has announced that it has certified the first additive manufacturing facility to UL 3400, a set of safety guidelines published last year that address the hazards associated with AM facilities. UL issued this prestigious certification to Lockheed Martin, and its 6,775-square-foot Additive Design and Manufacturing Center in Sunnyvale, California. UL 3400, also called the Outline of Investigation for Additive Manufacturing Facility Safety Management, considers the three layers of safety: material, equipment, and the facility itself, and references applicable standards from OSHA, ASTM International, the National Fire Protection Association, and others. UL and its 3400 guideline cover the potential hazards and risk mitigation measures that are required for these facilities to function safely.
“Employers, employees, local regulators as well as insurance companies who have to underwrite additive manufacturing facilities, were not fully aware of the inherent material and technology risks. Safety is designed rather than built. Not a single standard or statutory guideline was available that specifically focused on additive manufacturing. Other standards and guidelines were developed for conventional manufacturing processes,” explained Balu V. Nair, UL’s Additive Manufacturing Lead Development Engineer and an important player in developing UL 3400. “We decided to address this industry need by developing a set of guidelines with exclusive focus on additive manufacturing.”
America Makes Announces Next Directed Project Opportunity
This week, America Makes announced its next Directed Project Opportunity, available for its members for AM applied (R&D) projects for Advanced Tools for Rapid Qualification (ATRQ). The goal is to promote and accelerate the development and deployment of cost effective, energy-efficient 3D printing technologies in order to meet defense and/or commercial needs. Approximately $3.9 million should be made available to fund multiple awards, with at least $1.95 million in matching funds from the winning project teams. The technical requirements of the ATRQ Directed Project Opportunity relate to the America Makes Technology Roadmap, as well as the Integrated DoD AM Roadmap.
“For our partners at the DoD, the anticipated outcomes of the America Makes ATRQ Directed Project Opportunity are of the utmost importance. The DoD’s need for rapid qualification and certification of AM processes and materials is great,” said Rob Gorham, the Executive Director of America Makes. “These projects will be instrumental in resolving the current deterrents that are hindering the wider adoption and deployment of AM technologies within the DoD and its supply chain.”
Technical topics for the ATRQ Directed Project Opportunity are Surrogate Damage Generation for LPBF Defects, Degradation of Polymer Parts Deployed in Harsh Environments, and Corrosion Mechanisms of LPBF Materials. All Project Concept forms are due no later than 5 pm EST on Wednesday, November 28, 2018. To see all of the technical project requirements, as well as other information about the Directed Project Opportunity like non-disclosure agreements, eligibility, and the proposal process, check out the America Makes website.
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This week, CollPlant and United Therapeutics Corporation announced that they have entered into a licensing, development, and commercialization agreement together for the purposes of 3D bioprinted lung transplants. This partnership will combine United Therapeutics’ organ manufacturing and regenerative medicine capabilities with CollPlant’s BioInk and proprietary recombinant human collagen (rhCollagen) technology.
“We strongly believe that our proprietary and proven rhCollagen is the finest building block for regenerative medicine scaffolds available today, and will play a critical role in the organ manufacturing process,” said CollPlant CEO Yehiel Tal. “As a pioneer in the field, United Therapeutics is the perfect partner for us. This strategic agreement is a major achievement for CollPlant as it aligns us with a global leader, validates our technology and creates value for our shareholders. We are honored to have established this important collaboration with United Therapeutics and look forward to working together to bring lifesaving organs to humanity.”
Under the terms of the agreement for 3D bioprinting solid-organ scaffolds for human transplants, which United Therapeutics is more than familiar with, CollPlant granted an exclusive license for its technology to United Therapeutics, through its wholly owned organ manufacturing and transplantation-focused subsidiary Lung Biotechnology PBC, for the production and use of its rhCollagen-based BioInk for 3D bioprinted lung transplants. The subsidiary itself is the first public benefit corporation subsidiary of a public biotechnology or pharmaceutical company and works to address the national shortage of transplantable lungs and other organs.
Over the next few years, CollPlant will manufacture and supply BioInk in order to meet the development process demand. In addition, it will provide technical support to United Therapeutics while it sets up a facility in the US to manufacture both BioInk and rhCollagen.
Martine Rothblatt, PhD, Chairman and CEO of United Therapeutics, said, “We are excited to work with CollPlant’s extraordinary Israeli technology to transform the tobacco plant that is so associated with lung disease into a collagen-expressing plant that will be essential to the production of an unlimited number of transplantable lungs.”
The agreement, in addition to its focus on lung manufacturing, will also grant United Therapeutics an option, in its sole discretion, to expand the field of its CollPlant license in order to add up to three additional organs.
According to the agreement’s financial terms, once it’s effective, CollPlant will receive an initial upfront payment of $5 million. Then, once certain operational and regulatory milestones related to the development of 3D bioprinted lungs are reached, the company will receive milestone payments of up to $15 million.
Option exercise payments of up to $9 million are also provided for in the licensing agreement, as well as additional developmental milestone payments of up to $15 million…if United Therapeutics decides to develop additional manufactured organs using CollPlant’s technology, that is. Additionally, CollPlant will also be entitled to receive reimbursement for certain costs, as well as royalties on sales of commercialized products that are covered by patents licensed by the company itself.
The effectiveness of the licensing agreement between CollPlant and United Therapeutics is subject to a few closing conditions, which include receipt of approval by the Israel Innovation Authority, which was formerly the Office of Chief Scientist.
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Australian metal 3D printing company Titomic, known for its innovative Titomic Kinetic Fusion (TKF) process, has plenty of big news to share this week. First, CEO Gilbert Michaca, who was responsible for implementing a series of governance and operational structures to support Titomic’s next growth phase, has resigned from the company.
“I have enjoyed my time with Titomic and the additive manufacturing sector, but I am moving to pursue other commercial opportunities more aligned with my interests,” said Michaca. “I look forward to witnessing Titomic’s growth and prosperity in the future.”
Jeffrey Lang
In addition to Michaca’s resignation, Titomic announced that its founder and former Interim CEO Jeffrey Lang, who led the company through its IPO, and the establishment of its cold spray facility in Melbourne, has now been appointed as the Managing Director, effective immediately.
“Following our whirlwind IPO and unprecedented growth phase, the Titomic team has delivered a lot in a very short period of time,” said Titomic Chairman Philip Vafiadis. “With Jeff stepping into his new role as the Company’s Managing Director we are excited that his significant knowledge and networks across industry sectors, his deep understanding of the technology, his experience, his passion and his understanding of investor needs bodes well for future growth and shareholder value.”
Moving on from news about its executives, Titomic has just signed a $1.8 million, year-long MoU with fellow Australian company TAUV Proprietary Limited (TAUV), which integrates electronic technologies into solider protection for the purposes of improving safety and performance. Together, the two will begin an exclusive defense program for Titomic to manufacture soldier systems, unmanned aerial vehicles (UAV), and soldier sensors for TAUV.
Recently, TAUV completed a successful launch of the first ruggedized titanium tactical UAV at Land Forces 2018, which was manufactured by Titomic and caused great excitement in both the additive manufacturing and defense industries. This launch was Phase 1 of the partnership between the two companies, and the MoU was signed after the prototype drone launch. TAUV and Titomic agreed to a two-phase extension to their existing relationship, so that TAUV can license the TKF technology, patented in both the US and Australia, in order to make next-generation soldier systems.
According to Research and Markets, “The soldier systems market is projected to grow from USD$9.78 billion in 2018 to USD$14 billion by 2023, at a CAGR of 7.65%.”
TAUV Tactical Unmanned Aerial Vehicle at Land Forces, 2018.
TAUV worked hard to secure exclusivity with Titomic for the manufacture of its UAV and other soldier system products, like body armor and helmets. Under Phase II of the partnership, Titomic will deliver a feasibility report, which outlines mechanical properties, performance parameters, and product cost advantages of its technology, to TAUV. TAUV must outline the Specific Products on or before November 30, at a total Phase cost of $300,000, in order to execute Phase II and maintain exclusivity.
“This MoU with TAUV provides the first significant revenue for Titomic,” said Lang. “The granting of an exclusive license to TAUV for the production of solider systems further validates Titomic’s licensed CSIRO patents as a viable additive manufacturing process that enables Australian companies to manufacture cutting-edge products with competitive advantages for the global market.”
For Phase III, Titomic will design and engineer a manufacturing process for TAUV’s next-generation soldier system for up to five products, at a cost of $300,000 each, to add up to a total revenue of up to $1.5 million. Once the production and evaluation trials in this phase have been completed, the two companies will finalize product licenses so that TAUV can use the automated TKF production line systems to fabricate soldier system products…with continuing royalty payments going to Titomic for the use of its technology.
TKF uses a process similar to cold spray to build up titanium parts layer by layer, rather than simply coating a surface, and has no limits in terms of shape and size. The technology has unique additive manufacturing capabilities to offer to defense organizations for the production of lightweight, next-generation, high-performance products.
“The solider system products produced by Titomic’s TKF process will enhance the offering to defence and law enforcement agencies through improved strength, functionality and capability,” said TAUV Director Nathan Kalisch. “A new ruggedised UAV will be capable of deployment in dangerous, live combat situations to perform some of the direct combat roles we want to remove military personnel from, heightening their security.”
L-R: Titomic CTO Jeff Lang, TAUV Founder Nathan Kalisch, Titomic CEO Gilbert Michaca
This continuing partnership came about as the result from an increasing demand around the world for innovative new defense products. According to Variant Market Research, the market for combat helmets is estimated to grow to $3 billion by the year 2024, while Grand View Research states estimates that by the same year, the body armor market will be valued at $4 billion.
In the future, TAUV will be working closely with Force Ordnance to provide product innovation and advanced manufacturing solutions to some of the largest defense product manufacturers in the world.
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Additionally, Titomic has signed an Acquisition Agreement with Future Titanium Technologies (FTT). The company is now entitled to over eight years of exclusive 3D printing techniques and background IP relating to the production of pipes and their components.
Titomic’s fast 3D printing technology, which is actually the result of a CSIRO study, can now be used by industries looking to access next generation, dual-wall materials to 3D print metal pipe without having to worry about profile or size constraints.
