Shapeways, a leader in powering digital manufacturing, continues to disrupt the traditional manufacturing market through end-to-end digitization and automated workflows that lower manufacturing barriers, alleviate critical supply chain bottlenecks and speed delivery of quality products worldwide. The company’s purpose-built software, proven production capabilities and global network of certified printer, materials and manufacturing partners are transforming manufacturing while boosting supply chain resiliency.
“Global supply chains continue to face massive disruptions caused by unforeseen events—from a traffic jam at the Suez Canal to a year-long pandemic that upended sourcing, procurement and production,” said Miko Levy, chief revenue officer of Shapeways. “Digital manufacturing is the key to meeting escalating demands for supply chain resilience with unprecedented agility and flexibility.”
Swedish aerospace and defense company Saab has successfully conducted a flight test that has shown how additive manufacturing can be used to repair battlefield damage on its Gripen fighters.
The test flight, which took place at Saab’s facilities in Linköping, Sweden on March 19 marks the first time an exterior 3D-printed part has been flown on a Gripen, rather than internal 3D-printed components.
The Gripen was fitted with a replacement hatch that had been 3D-printed using additive manufacturing, using a nylon polymer called PA2200.
The project is a step towards 3D-printed spares being used for rapid repairs to fighter aircraft that have sustained damage while deployed on remote operations, thereby gaining a vital time-saving advantage, said Saab.
DNV GL, a global certification and risk management firm, has released a new 3D printing service specification document aimed at supporting additive manufacturing in the oil and gas industry.
Specification DNVGL-SE-0568 defines DNV’s additive manufacturing qualification scheme and provides details on how to obtain and retain a number of the company’s 3D printing-related certificates. This includes certificates that endorse facilities and digital manufacturing services, and certificates that qualify manufacturers, build processes, 3D printers, parts, and personnel.
The document was developed in accordance with industry standard DNVGL-ST-B203, which DNV previously created for metallic components in the energy sector. As such, the specification is ultimately intended to help the industry in adopting metal 3D printing in a safe and efficient manner.
Companies that sell consumer electronic goods in the European Union (EU) will be obliged to ensure they can be repaired for up to a decade, as a result of new Right to Repair legislation passed by the European Parliament.
3D Printing Industry asked EOS, Spare Parts 3D, DiManEx, Ricoh 3D and Link3D for their thoughts on how 3D printed spare parts could help consumer appliance manufacturers adhere to the legislation, while avoiding large physical stocks of replacement parts and subsequent incurring costs.
From summer 2021, the new EU Ecodesign and Energy Labelling regulation will give consumers the ‘right to repair’ on the goods they buy, meaning manufacturers will be legally required to make spare parts for products available to consumers for up to 10 years. The goods in question include refrigerators, dishwashers, hairdryers, lights, TVs, and so on, although appliances such as phones and laptops are not covered by the new laws.
Additive manufacturing has come to the forefront of the Army’s attention as the service looks for ways to quickly reproduce parts without needing to continuously rely on industry.
In 2019, the service released a new policy directive that outlined its goals to expand its 3D printing processes and established an additive manufacturing center of excellence at Rock Island Arsenal, Illinois.
Maj. Gen. K. Todd Royar, commanding general of Army Aviation and Missile Command, said on the aviation side, he has been using the directive as a baseline for the command’s 3D printing efforts and then incorporating additional standards to ensure that it can meet Federal Aviation Administration regulations as well.
What was the last thing you printed? While for many of us it’s likely to be a work document or a pile of handouts, the research engineers at the Wärtsilä Hub for Additive Manufacturing (WHAM) has moved into another dimension – printing critical engine components and leading the way in 3D printing utilisation.
3D printing, the more well-known name for the additive manufacturing process, promises to revolutionise component production. It is already being used in industries as diverse as aerospace and healthcare and is a key element of the on-demand economy, where components are manufactured only when needed, reducing warehousing costs and cutting down delivery times. It can also make manufacturing easier, cheaper and faster, opening up the opportunity to produce components on-site, eliminating the need for transportation and therefore reducing transport-based emissions.
General Motors announced the opening of the 15,000-square-foot Additive Industrialization Center, dedicated to productionizing 3D printing technology in the automotive industry.
General Motors recently opened its new, 15,000-square-foot Additive Industrialization Center (AIC), dedicated to 3D printing technology in the automotive industry. The AIC is the capstone of GM’s expertise and increased investment in 3D printing over the last several years.
“The core component of GM’s transformation is becoming a more agile, innovative company, and 3D printing will play a critical role in that mission,” says Audley Brown, GM director of additive design and materials engineering. “Compared to traditional processes, 3D printing can produce parts in a matter of days versus weeks or months, at a significantly lower cost.”
It’s been quite a year.
One of struggle, one of anguish, one of a technology that may have previously failed to live up to such lofty promise, perhaps now finding its role in the manufacturing landscape.
Though there were plenty of businesses in the 3D printing industry that had significant issues to encounter – GE in its AM-related goodwill impairment charges or Stratasys and 3D Systems in their workforce reductions – the technology itself comes out of 2020 with an enhanced reputation.
It was responsible for millions of parts produced in response to the COVID-19 pandemic, helping to alleviate slightly the pressure that medical professionals and procurement personnel were under, while allowing manufacturers to pivot from what they typically produced to what, in that moment, we needed them to.
After forming a collaboration to deliver maritime spare parts using 3D printing, thyssenkrupp and Wilhelmsen have onboarded Yinson to their 3D Printing customer program. Services provided will include solving pain points such as long lead time, part obsolescence and poor part performance.
Thyssenkrupp and Wilhelmsen are collaborating on leveraging on thyssenkrupp’s deep expertise in AM alongside Wilhelmsen’s in-depth maritime expertise and direct ongoing experience in understanding the needs of vessel fleet managers.
Based on current data, maritime fleets spend approximately $13 billion a year on spare parts. With 50% of these vessels being older than 15 years, the availability of parts are limited. This makes the fulfillment of orders for maritime spare parts costly and complicated, and in fact, supply chain overheads involved may oftentimes far outstrip the cost of the part itself.
PostNord, Stockholm, Sweden, the largest logistics company in the Nordics and a subsidiary of PostNord Strålfor Group. The digital inventory provides communication and logistics solutions to optimise Additive Manufacturing for the medical market.
PostNord’s continued expansion into AM is driving the need for an integrated offering within the medical market. Key enablers delivered to PostNord by Link3D as part of the deployment include a secure platform for physicians to move seamlessly from X-ray to part order, improving delivery speed, and integration with an industry-leading e-commerce platform that provides an end-to-end customer experience, from order requesting to delivery.
The deployment with PostNord is the latest expansion into a new market, with increasing numbers of potential customers beginning to see the need for an operating system that enables them utilise Additive Manufacturing across a variety of use cases. Link3D is offering a solution to this new problem, having already deployed solutions across aerospace, medical and contract manufacturing sectors.