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Wi3DP: Experts Discuss Challenges and Trends in 3D Printing Sustainability

A virtual panel discussion and networking event by Women in 3D Printing (Wi3DP) gathered three industry experts and leaders to share their insights and experiences on sustainability trends in additive manufacturing (AM) and how they will impact the industry’s choice of materials, energy usage, and waste.

Hosted by AM-Cubed President and Founder, Kristin Mulherin, and supported by AM service company Link3D, the live event featured Ellen Jackowski, HP’s Chief Sustainability and Social Impact Officer; Sherry Handel, the newly appointed Executive Director of the Additive Manufacturer Green Trade Association (AMGTA); and Cindy Deekitwong, Global Head of Marketing and Strategy for 3D Printing at Henkel Adhesive Technologies. The group touched on several hotly debated topics, like the lack of research on the environmental benefits and challenges of AM and how to generate a fully circular economy for the industry, underlying the importance of finding ways to enhance the already visible benefits of the technology.

Mulherin asked the experts to discuss how sustainability initiatives can respond to many of the challenges facing 3D printing. For Jackowski, companies need to start making more sustainable decisions that will help move the industry forward in a responsible manner. Adding that everyone in the industry, no matter what role they play, need to have what she likes to call “sustainability contact lenses,” meaning that, even if the job description does not involve sustainability, they need to figure out a way to make decisions that will have an impact on the carbon footprint, the community, or the health and safety of a manufactured product.

“We certainly don’t want to start seeing 3D printed parts bobbing around in the ocean like we see so many other things these days. We all need to continue to drive the energy efficiency of this business,” suggested Jackowski. “For example, when you plug those 3D printers in, they suck up a lot of energy, and that is certainly an area for innovation. So, I would say that whatever part of the 3D printing industry you are in, think about your impact on sustainability. It is also crucial to understand the implications of the materials we use, where we source them from, and how our customers use them in the most sustainable manner.”

Ellen Jackowski visiting an FSC-certified forest to see responsible forest management in action. (Image courtesy of HP)

The other panelists agreed that sustainable impact is about collaborative efforts, and having everyone involved in reinventing the company for sustainable impact. Deekitwong highlighted that the technology itself lends to more efficient designs that create less waste and eco-friendly supply chains, but she believes the industry should enhance sustainability efforts by reducing fuel consumption, working with suppliers to find biorenewable materials and collaborate with ecosystem partners and consumers to recycle end-of-life parts. Deekitwong shared how Henkel’s recycling initiatives led the company to collaborate with TerraCycle to upcycle garbage from used 3D printed parts, resins, and packaging.

For Handel, who is focused on promoting the inherently positive environmental benefits of AM within key industries and the public at large, the existing research does not provide enough good metrics in data. This is why AMGTA is commissioning academic research through life-cycle assessment (LCA), to quantify and provide data and metrics on what it takes to produce a particular part via both traditional and additive manufacturing processes. Eventually, this will help the industry better understand what the eco-footprint is, and reveal some areas that will make the industry even more sustainable in the future.

Handel then centered on one of AMGTA’s core projects that will help create a more circular economy by empowering companies to develop a global set of standards to properly and cost-effectively recycle powder condensate, a vaporized metal powder that collects on the chamber walls and in the filter unit during a build process.

“The powder condensate cannot be reused and is considered a hazardous waste by the US Environmental Protection Agency (EPA). It usually ends up in a landfill, so we want to find a way to repurpose it, recycle it, and publish a a set of standards in early 2021 that we can share with our member companies and industry to help mitigate this challenge,” indicated Handel.

Then, Mulherin shared an overview of the importance of avoiding greenwashing, an unsubstantiated claim to deceive consumers into believing that a company is environmentally friendly. For both Deekitwong and Jackowski, this point is crucial, especially since both Henkel and HP have over 50,000 employees, and need to convey the message to everyone that the company’s reputation could be destroyed with one wrong move. Jackowski further described how it could be easy for employees to make a judgment call that could lean toward greenwashing, but said HP is “very aware of the boundaries of greenwashing.”

Cindy Deekitwong. (Image courtesy of Henkel Adhesive Technologies)

Both companies have seemingly strong objectives in place. For Henkel, reducing carbon footprint in operations means a 65% reduction by 2025, 75% by 2030, and becoming “climate positive” in 2040. While HP’s awareness of its responsibility around creating a circular economy led to policies to use fully recyclable materials in 3D printers.

“Our eye is looking at how we set up this industry, and as we’ve transitioned, we have seen increased adoption during the pandemic because of the flexibility and speed that 3D printing offers. But I think there are a lot of opportunities to continue to innovate and, as we stand up this industry, as we all transform from traditional manufacturing to 3D, we need to think about it holistically and doing it right from the beginning,” said Jackowski.

Sherry Handel, Executive Director of the Additive Manufacturer Green Trade Association. (Image courtesy of AMGTA)

A clear challenge for Handel is the lack of awareness of environmental management system certifications. AMGTA encourages member companies to get ISO 14001 certified, an international standard that helps set the framework for a company to benchmark where they are and help them improve environmental criteria over time, like energy use. But Handel said that “not everyone is going to be able to flip on a dime and hit the easy button to get things accomplished and starting somewhere is better than nothing,” which is why AMGTA suggests third party certifications, like the Green Business Bureau, taking companies on a pathway towards more environmentally sustainable practices.

Toward the end of the conversation, Mulherin suggested that organizations need to recognize that sustainability efforts will generate revenues, instead of simply costing the companies money. In fact, Jackowski indicated that customers are taking notice of a company’s sustainability initiatives, detailing how HP saw $1.6 billion in new sales in 2019 due to the company’s actions in sustainability, a 70% increase year over year.

“We are seeing a shift, an awakening of general consciousness in consumer behavior and purchase patterns surrounding sustainability, and we only expect it to get stronger. That provides financial motivation for everyone in this space to continue to accelerate what we are doing. Whatever part of the value chain you are in, you are going to start feeling it more: the pressure to go sustainable,” said Jackowski, who also emphasized HP’s continued commitment to sustainability since founders David Packard and Bill Hewlett created the company in 1939. “As it has evolved over the years, sustainability has gone from being founder-led to across the DNA of the company.”

The virtual event gathered a wide array of participants worldwide, most of them working in the AM industry and eager to learn about sustainable practices thriving in 3D printing. As with previous panels, this Women in 3D Printing event facilitated a networking experience both before and after the speakers virtually took the floor, with crowded tables and a lot of simultaneous chats about the importance of environmentally sound practices in additive.

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3D Printing Webinar and Virtual Event Roundup, August 16, 2020

We’ve got virtual events and webinars this week covering everything from sustainability and forming to metal and medical additive manufacturing. Read on to learn what’s available!

NatureWorks 3D Considers Sustainability in AM

Biotechnology company NatureWorks 3D is hosting a webinar this Tuesday, August 18th, at 1 pm EDT, titled “Printing Consciously: Considering Sustainability in 3D Printing.” The free webinar will last about one hour, and cover topics such as circular vs. linear model of materials, mechanical and chemical recycling, best practices for used FFF 3D printing materials, environmental impacts of using bio-based and petrochemical-based filaments, and more. Dan Sawyer, the company’s Business Development Manager, and Deepak Venkatraman, Applications Development Engineer for NatureWorks, will share some thoughts and insights into how polymers fit into the circular economy approach in order to decrease the AM industry’s impact on the world.

“A renewed focus on climate change and the impacts petrochemical plastics have on the environment has many individuals and companies considering how they can incorporate more sustainable practices into their efforts. The additive manufacturing industry has long been a leader in how technology can fit into a progression toward a more sustainable production. In this webinar, we will dig into the sustainability attributes behind the materials often used in fused filament fabrication (FFF) processes that have an environmental impact. We’ll also talk about how 3D prints fit within common waste scenarios as well as new sustainability frameworks like the circular economy.”

There will be a question and answer session at the end of the webinar; register here to attend.

EOS Introduces the INTEGRA P 450

Also on August 18th, EOS is holding a webinar at 2 pm EDT to introduce its latest system, titled “From R&D to Production: Introducing the INTEGRA P 450.” This mid-size, SLS industrial additive manufacturing system was developed by EOS North America, based off of direct feedback from the manufacturing community and built to “meet the demand for additive manufacturing of polymers, it empowers designers, production engineers and material makers alike.” In addition to gaining an understanding of the INTEGRA P 450‘s material compatibilities and development opportunities, attendees will also learn about the company’s new open software platform. Speakers will be Fabian Krauss, EOS North America’s Global Business Development Manager, Polymers; Mohit Chaudhary, Additive Manufacturing Specialist, Polymers – Solution Engineering, for EOS North America; and Mike Conner, EOS North America’s Vice President of Service and Support.

“Discover how the INTEGRA P 450 is truly the most flexible and accommodating SLS industrial 3D printer on the market, with an impressive array of new user-friendly features that offer unprecedented productivity, material compatibility, and simple serviceability.”

Protolabs Discussing Forming and Formed Features

As part of its ongoing webinar series, Protolabs will be discussing sheet metal forming during its webinar, “A Deep Dive on Forming and Formed Features,” on Wednesday, August 19th, at 2 pm EDT. James Hayes, Protolabs Applications Engineer and the company’s technical applications engineering expert for sheet metal fabrication, will offer insight into forming techniques and equipment, as well as important design considerations for sheet metal forming, and how they can impact part geometry. You’ll leave with new knowledge and insight into how to leverage formed features, and improve sheet metal part designs.

“Understanding the ins and outs of sheet metal forming can be fraught with challenges, however there are some important things to know that can result in better designed, more cost-efficient parts. In addition, considerations between how different formed features can impact your product throughout its’ lifecycle can help you achieve your product goals and bring your ideas to market at record speeds.”

ASME’s AM Medical Live Webinar

Last week, ASME was powering the AM Industry Summit, for 3D printing professionals working in the aerospace and defense and medical device manufacturing fields. Now it’s hosting a live webinar this Thursday, August 20th, from 2-3 pm EDT, supported by Women in 3D Printing and titled “Integrating 3D Printing with Other Technologies at the Point of Care.” Speakers will be Sarah Flora, the Radiology Program Director for the 3D Lab at Geisinger Health; Amy Alexander, MS, Senior Biomedical Engineer at the Mayo Clinic’s Anatomic Modeling Lab; and the Director of the 3D Imaging Lab at Montefiore Medical Center, Nicole Wake, PhD. They will be discussing how 3D printing is often a very important medical tool when it comes to patient care.

“Whether anatomical models or guides are used for education or surgical planning, radiologists, surgeons, and engineers work together to improve the patient experience. Leveraging 3D printing with other technologies can expand the value within a clinical setting. Three leading clinical engineers will discuss technologies that can be used together to extend the usefulness of 3D printing including silicone casting, surface scanning, augmented reality, and more. Join the discussion to explore the unexpected ways to increase the benefits of 3D printing.”

The webinar is free to attend, and you can register for it here.

IDTechEx on Metal Additive Manufacturing

Finally, also on August 20th, IDTechEx will be holding its latest free, expert-led webinar, “Metal AM: Short-Term Pain, Long-Term Gain.” Presented by Dr. Richard Collins, IDTechEx’s Principal Analyst, the webinar, which shares some research from the company’s detailed “Metal Additive Manufacturing 2020-2030” report, will provide an overview of the latest key trends and market forecast for metal additive manufacturing, the latest material considerations and entrant analysis, technology benchmarking, the impact of COVID-19, and more.

“Metal additive manufacturing has been gaining traction. Increased number of use-cases, end-users progressing along the learning curve, more competition, and a maturing supply chain. The applications have been led in high-value industries most notably aerospace & defence and medical, many more are emerging in automotive, oil & gas, and beyond. These sectors have had very different fates during the global pandemic and the knock-on effect will be profound. There are some silver-linings and the long-term outlook is positive for this industry, but it will not be an easy ride. IDTechEx forecast the total annual market for metal additive manufacturing to exceed $10bn by 2030. This is not before a very challenging immediate future; a result of the COVID-19 pandemic.”

Three different sessions of this 30-minute webinar will be offered, the first of which will actually take place at 9 pm EST, on the 19th. The next one will be at 5 am EST, and the final session will be at 12 PM EST. You can register for your preferred session here.

ASTM’s AM General Personnel Certificate Program

Don’t forget, the ASTM International Additive Manufacturing Center of Excellence (AM CoE) is still offering its online AM General Personnel Certificate course, which continues through August 27th and is made up of eight modules covering all the general concepts of the AM process chain. Register for the class here.

Will you attend any of these events and webinars, or have news to share about future ones? Let us know!

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Open Source Grinding Machine Cuts Cost of Pellet 3D Printing

In pursuing the Distributed Recycling and Additive Manufacturing (DRAM) approach to open-source hardware development, a significant challenge lies in addressing the high cost of the compression screw component for alternative 3D printers, such as Fused Particle Fabrication (FPF) or Fused Granular Fabrication (FGF).

Platform solutions such as RepRap and Arduino, have allowed users and professionals worldwide to access or manufacture products or scientific tools themselves, cheaper and more effectively than commercial hardware products. Yet, as Dr. Joshua Pearce, of Michigan Technological University (MTU), notes in his study on the topic, open hardware lags the success of the open software community by about fifteen years. It is initiatives such as Dr Pearce’s Open Lab that are helping to bridge this gap—and in this case, with open hardware solutions that make FPF and FGF cheaper, more accessible, and more efficient than they are at present. The details of the lab’s work on the subject are described in a recent study, “Open Source Grinding Machine for Compression Screw Manufacturing.”

FPF or FGF are more effective than the traditional Fused Filament Fabrication (FFF) for DRAM, since they use raw plastic particles or granules which are more easily available and cheaper, instead of filament, to 3D print objects. Although it is has proven much cheaper and technically viable to produce filament from a variety of waste polymers, using an open-source waste plastic extruder (or recyclebot) – the process degrades the mechanical properties of the filament material over time, and limits its recyclability. In addition, commercially 3D printing filament is more expensive, at $20 per kg, than raw plastic pellets which are priced at $1-5 per kg.

This is why FPF and FGF printers are seen as a more effective alternative for the DRAM approach, and are already being used by academia, maker communities and businesses—the best example for the latter being GigabotX, an open-source industrial 3D printer than can use a range of materials from Polylactic Acid (PLA) to polycarbonate (PC). However, FPF/FGF 3D printers are more expensive, primarily due to the high cost of the precision compression screw, compared to FFF printers, and commercially available screws are not only very expensive (over $700 for the filabot screw) but also limited in handling larger pellets due to their small scale and size.

Image courtesy of MDPI

This is where Dr. Pearce’s open source hardware solves the problem: by providing a low-cost open-source grinding machine, so users of FPF/FGF can fabricate a precision compression screw for about the cost of the bar stock. Users will no longer be limited to commercial designs, and will be able to customize or optimize the screw to suit their requirements in terms of channel depth, screw diameter or length, pitch, abrasive disk thickness, handedness, and materials (three types of steel, 1045 steel, 1144 steel, and 416 stainless steel).

Image courtesy of MDPI

These compression screws will make recycling polymer particles/granules cheaper, more efficient, and flexible for FPF/FGF users, thus strengthening the case for DRAM as it pushes towards a circular economy.

Image courtesy of MDPI

The grinding machine is made using an off-the-shelf cut-off grinder (approximate cost $130, ideally suited only for steel or stainless steel) and less than $155 in parts. It is classified as an outside diameter cylindrical grinding machine. All the 3D printed parts can be made using any desktop printer using PLA (in this case a Lulzbot Taz 6), and the plywood parts were prepared using a CNC wood router.

Dr Pearce has long been an advocate of open source, distributed manufacturing, and DIY solutions for students, businesses, and, in particular, for scientists and researchers. To help accelerate innovation, empower scientists and users dependent on or limited by expensive commercial equipment and supply chains, and to reduce the cost of scientific tools, Dr.Pearce has led the way with his open source software or hardware solutions and initiatives. He has helped develop the Recyclbot, respirators, ventilators, specialized 3D printers, scientific or medical device components, and more.

Among other work, he has also worked to show how DIY 3D printing could impact the toys and game market (reducing costs of simple and complex toys or games by 40-90%), how to develop open-source, affordable metal 3D printing solutions using GMAW, and to 3D print slot die cast parts, that cost thousands of dollars, for just cents. He is also the author of Open-Source Lab: How to Build your Own Hardware and Reduce Research Costs and teaches a renowned open source introductory course in additive manufacturing at MTU, which is now online and free.

This latest work shows just how far his lab is going to make manufacturing technology accessible, even down to the compression screw needed for FPF/FGF 3D printing. The design, instructions and files for the device are free, and available here.

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6K Partners with Relativity Space, Commissions UniMelt to Transform Sustainability in Metal 3D Printing

On the heels of their recent announcement of commissioning the first two commercial UniMelt systems for sustainable production of additive manufacturing (AM) powders, 6K has now partnered with Relativity Space to explore sustainability in AM production for rocket manufacturing and space travel.

Relativity’s Terran 1 – rocket parts will be built in a reportedly sustainable manner using 6K’s proprietary technology, image courtesy of Relativity Space.

The partnership with Relativity Space expands on the sustainability focus in metal AM, reimagining the aerospace supply chain. Relativity will look to provide 6K with certified scrap materials, used powder or parts, which can be recycled into premium powder that will then be reprinted by Relativity for final production parts suitable for rocket launch and space travel applications. The pioneering aerospace manufacturer is not only creating an autonomous factory to additively manufacture an entire rocket, from raw material to launch-ready, in just 60 days, but is also looking to do it by reusing materials. 6K will bring sustainability to Relativity’s unique supply chain, and ensure closed loop traceability in production.

Commenting on the landmark partnership, Dr.Aaron Bent, CEO of 6K, said:

“Relativity is pushing the boundaries of additive manufacturing by 3D printing a complete rocket and we see this partnership as a natural extension of their forward thinking practice. Our ability to turn their used powder and parts into premium powder through the UniMelt process provides them with a sustainable source for AM powder. We are proud to be partnering with Relativity to explore ways to increase sustainability, recycling and environmentally responsible manufacturing processes, which the entire AM industry is uniquely posed to be able to integrate into standard practices.”

Relativity is continuing to build key partnerships as it prepares to launch the world’s first entirely 3D printed rocket, Terran 1, in 2021, and recently signed a public-private infrastructure partnership with the US Airforce to use the latter’s launch site facility in Southern California.

Customers from key industries of automotive, manufacturing, aerospace and more, are increasingly looking to improve their supply chain efficiencies and shift towards more sustainable production. In shifting towards ‘green’ manufacturing, AM material suppliers are looking for ways to use domestic, reusable sources for AM powder production. While AM itself is often seen as a sustainable manufacturing method, the production of AM powders hasn’t been near sustainable, generating large amounts of waste to produce a small quantity of much-needed premium quality AM powders.

6K, a developer and supplier of advanced materials, is transforming the production of AM powders with its UniMelt system, which is the world’s only microwave plasma system for production. The system, which produces three to four times the yield of gas atomization, not only allows 6K to create highly uniform powders with the requisite properties, but also to tailor the powder to the specific AM process it will be used for.

Outlining the range of materials the system can produce, 6K stated that UniMelt is capable of producing:

“a highly uniform and precise plasma zone with zero contamination, and capable of high throughput production of advanced materials including Onyx In718 and Onyx Ti64 AM powders. 6K’s UniMelt technology can also spheroidize ferrous alloys like SS17-4PH, SS316, other nickel superalloys including Inconel 625, HX, cobalt-base alloys like CoCr, refractory metals like Mo, W, Re, reactive alloys such as Ti-6-4, TiAl, Al alloys as well as high-temperature ceramics such as MY and YSZ.”

6K’s proprietary UniMelt system that produces premium metal AM powders at 100% yield, image courtesy 6K

The company recently commissioned two commercial UniMelt production lines at its 40,000 square foot plant in Pennsylvania, USA, with each to produce 100 tones per year of nickel super alloys and titanium powders. This could represent a significant milestone in AM sustainability, in both its processes and applications for existing and new metal powders.

At Formnext 2019, 6K launched its Onyx In718 and Onyx Ti64 materials which, after internal product qualification and 3^rd party printing, will begin customer sampling in the latter half of this year. Additional UniMelt systems will be commissioned throughout 2021 to meet anticipated demand for premium metal AM powders. The company is also looking to certify its plant as a sustainable manufacturing factory, as a recent member of MESA’s association for sustainable manufacturing.

“The commissioning of the first commercial UniMelt systems is the culmination of terrific work by experts in manufacturing, process and materials at both 6K Additive and our parent company 6K,” said Frank Roberts, President of 6K Additive. “Customers and strategic partners have been eager to sample and use our Onyx powders and we’re ready to deliver. Accompanying the new UniMelt systems, the new facility encompasses automated manufacturing equipment and industry leading safety and health systems that confirm our organization is hitting our production goals while ensuring the utmost in safety for our employees.”

UniMelt’s high frequency microwave plasma, image courtesy 6K

Through 6K Additive, its division focused on AM material solutions, the company aims at the production of ultra-high quality metal powders, at scale, at low cost with more than nine times the efficiency of existing plasma processes, the company claims. 6K (which stands for 6000K, the approximate temperature of the UniMelt plasma system and the temperature of the Sun) also enables the development of alloy powders with unusual properties, combining different types of metals that could not be mixed before, and producing previously thought “impossible” materials for 3D printing production. ‘Unobtainium’, is an alloy made by 6K which was previously considered impossible to obtain or produce, that combines six different metals including copper, iron, nickel, titanium among others.

This is because 6K’s microwave plasma process is the only process that can achieve the combination of high entropy metals, enabling the production of rare, unexpected alloy powders for metal AM. What’s most interesting though is that 6K’s microwave plasma platform converts certified chemistry machine millings, turnings, previously used powders, discarded parts, and other recyclable feedstock into high-quality AM powders. This means that any machined alloy could potentially be processed into reusable premium metal AM powder with specific properties.

6K’s unique technology could accelerate the trend towards a circular economy in metal AM, image courtesy 6K

6K may be transforming the business case for powder-bed and sintering applications in critical areas of cost, efficiency, sustainability and capabilities. This could accelerate the shift towards a circular economy in metal AM, despite greater short-term impacts in metal AM markets (as compared to polymer) this year due to COVID-19, and could also strengthen mid to long-term demand for metal AM solutions – perhaps growing the market beyond a projected $11 billion by 2024 (as per SmarTech’s latest AM Metal Powders 2019 report).

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AMGTA Commissions First Research Project on Environmental Sustainability of Metal 3D Printing

In November, the non-commercial, global trade group AMGTA, or the Additive Manufacturer Green Trade Association, was launched in order to promote the many environmental, green benefits of using additive manufacturing (AM) rather than conventional technology. The AMGTA has just commissioned its first university research project, which will be a systematic review of the environmental sustainability of metal 3D printing. The review will be literature-based, and will look at existing studies focused on the environmental benefits of the technology.

Based in Hollywood, Florida, the non-profit AMGTA is unaffiliated, meaning it is open to any industry stakeholder or additive manufacturer who meets specific criteria that are related to sustainability in processes and production.

“The AMGTA seeks to educate the public and industry about these positive environmental benefits, promote the adoption of AM as an alternative to traditional manufacturing, develop best practices for additive manufacturing, and help the organization’s members grow their businesses and acquire new customers,” the website states. “In order to accomplish these goals, the AMGTA will engage in marketing and advertising campaigns, sponsor and conduct research and publish the results, and grow the organization’s membership.”

3D printing has many benefits in terms of sustainability. For instance, it uses less material, which equals less waste, and also uses less energy than other processes. Additionally, parts can also be fabricated closer to the consumer, so that helps lower the carbon footprint as well by reducing, or even negating, shipping travel.

According to Sherry Handel, the AMGTA’s Executive Director, the commissioned research paper will be “…describing where metal additive manufacturing provides environmental benefits compared to older manufacturing methods.”

“This research may also reveal areas in the manufacturing process where AM could cause higher environmental impacts than older manufacturing methods. Through rigorous, independent and ongoing research the AMGTA will publish research findings and share with industry and other key stakeholders what our eco-footprint is now and what we will need to focus on in the future to be more sustainable.”

The AMGTA announced that it has chosen Dr. Jeremy Faludi, PhD, LEED AP BD+C, a design strategist and sustainable engineering researcher, to oversee the project. With degrees from UC Berkeley, Stanford University, and Reed College, Dr. Faludi is currently an assistant professor of design engineering at the Technical University of Delft (TU Delft) in the Netherlands, focused on green 3D printing and design for the circular economy. He has previously taught at Stanford and the Minneapolis College of Art and Design, and is also an adjunct faculty member of engineering at Dartmouth College’s Thayer School of Engineering.

Dr. Jeremy Faludi, PhD, LEED AP BD+C

“We are excited to announce our first research project and thrilled to be able to work with Dr. Faludi. This project will provide our membership and the public in general with an excellent survey of existing research on the sustainability benefits of AM. Dr. Faludi is a renowned researcher within this field, and we are looking forward to understanding better the existing scope of research on this topic,” Handel said.

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

(Images: Additive Manufacturer Green Trade Association)

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The Promise of 3D Printing Sustainable Society & Development

Italian researchers are exploring the ongoing pervasiveness of 3D printing and additive manufacturing and what that really means for the future in ‘Investigation of the Impact of Sustainability on 3D Printing Technologies.’ While they understand much about performance in terms of software, hardware, and materials—along with a wide range of peripheral products now being produced to accentuate sales in a burgeoning industry—the research team considers how 3D printing can play a role in the ‘sustainable society.’

Defining 3D printing as a method for ‘joining or solidifying’ materials under computer control, the researchers remind us that the technology was not meant for the enjoyment of the masses originally; after all, at first there was no concept of how other users would grasp the magnitude of what can be accomplished with such processes. Meant as an engineering tool to further rapid prototyping in industrial and commercial applications, 3D printing has been behind many designs for companies like NASA. Today, users of all ages and with a variety of different interests are enjoying the affordability and accessibility of 3D printing—often sharing Fab Labs which are equipped for groups to enjoy a common creative space.

“However, uncontrolled industrial, commercial and new ‘informal’ 3D Printing applications – intended as new distributed socio-technical forms of production – might produce unsustainable impacts on the ecosystems. In the perspective of a Sustainable Development defined as ‘a development that meets the needs of the present without compromising the ability of future generations to meet their own needs’ (UN WCED, 1987), it is important to control this type of innovations to mitigate the anthropic impacts on ecosystems both at micro-and at macro-scale,” state the researchers, encouraging a more ‘systemic approach’ for sustainability-oriented technology following a vertical direction in mono-disciplinary research, and cross-fertilization.

Sustainability of 3D printing has a better chance of thriving when all the elements are considered, to include:

Material supply
Design of solutions
Processes simplification
Design based in sustainable conditions

“Accordingly, as the need of sustainable solutions is still high, the evolution of 3D Printing’s paradigms toward network-based, hybrid PSS-based and SLOC-oriented scenarios, can surely meet the Design Research in the field of Design for Sustainability and the technology-driven research of 3D Printing industry,” concluded the researchers.

“… the results here achieved can be useful to develop a new design awareness, which can be used by designers, makers, entrepreneurs and stakeholders to address the future development of new proactive printable sustainable solutions for new emerging markets and countries.”

As 3D printing exploded into the mainstream several years ago, its level of sustainability has been a central topic within the industry. And while the technology has certainly proven to be far more than a one-hit wonder or a fad, researchers are still exploring the promise and potential of what seems to be an infinite realm ripe with innovation.

While there may have been many critics of 3D printing at first, world leaders in a wide range of industries have made their interest in this progressive technology known, from GE to HP, to automotive manufacturers like BMW and retailers like Adidas or Nike.

What do you think of this news? Let us know your thoughts! Join the discussion of this and other 3D printing topics at 3DPrintBoard.com.

Fablabs are cropping up around the world (from ‘We Need to Talk About Fablabs‘)

[Source / Images: ‘Investigation of the Impact of Sustainability on 3D Printing Technologies’]

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