Automaker teams with Siemens, HP to make lighter components, with goal of 100,000 annually by 2025
Volkswagen has begun certifying prototype 3D-printed structural components, with the aim of producing 100,000 parts annually by 2025.
VW is teaming with Siemens and HP to industrialize 3D printing of structural parts, which can be significantly lighter than equivalent components made of sheet steel.
The automaker will use an additive process known as binder jetting to make the components at its main plant in Wolfsburg, Germany. HP is providing the printers and Siemens will supply the manufacturing software.
Cranes manufacturer Huisman said it has successfully tested four new 3D printed 350mt crane hooks under the supervision of the independent certification authority Lloyd’s Register.
The hooks are approx. 170 by 130cm in size, almost nine times larger than the first Huisman 3D printed crane hook, the company said. They have a weight of 1,700kg each and a loading capacity of 350mt. Each hook exists of approx. 90 kilometers of welding wire.
Huisman has been employing the 3D printing technique ‘Wire & Arc Additive Manufacturing’ (WAAM) to produce mid-size to large components with high-grade tensile steel. According to the company, an important benefit of using this technique for crane hooks is the significant reduction in delivery time at a cost that competes with forgings and castings, and a more consistent quality level.
The oil and gas industry is embracing new technologies to save time and costs and, most recently, to reduce the carbon footprint of its supply chain as the energy sector is under increased pressure to reward shareholders while helping to fight climate change. Along with artificial intelligence, machine learning, digital twins, and robotics, the world’s biggest oil and gas firms and oilfield services providers are betting on 3D printing, also known as additive manufacturing, to streamline operations, cut costs and save time, and reduce emissions from spare parts manufacturing.
Over the past decade, some of the biggest oil and gas firms in the world have turned to 3D printing to procure parts and create digital warehouses to procure and manage the supply of necessary equipment.
One such example is supermajor Shell (2.60%), which believes that additive manufacturing technology can reduce the costs, delivery time, and the carbon footprint of spare parts. Shell has ongoing projects with other industry players, including Baker Hughes (3.06%), to push the innovation of 3D printing for the energy sector, say Nick van Keulen, Supply Chain Digitalisation Manager and Angeline Goh, 3D Printing Technology Manager at Shell.
IN order to move towards a broader and in-depth proliferation of enhanced technologies in the manufacturing industry, it is of utmost importance for the international community of manufacturers to exemplify leadership in employing Fourth Industrial Revolution technologies. Uplifting factories, supply chains and business models, aiming to minimise operational costs, maximise profits and fortify manpower development are the targeted ideals of this unified front.
This is a crucial move to embark on as the global manufacturing market is trailing behind in the engagement of Fourth Industrial Revolution technologies, as more than 70 per cent of companies have not made considerable progression.
As another form of technological innovation, 3D printing or additive manufacturing can be momentarily engaged to ease the pressure on supply chains amid fluctuations in demand, as demonstrated by the Covid-19 pandemic.
Last year’s supply chain turbulence forced numerous companies to drastically relook their manufacturing and design tactics.
Alstom, a France-based rolling stock manufacturer, has adopted FDM 3D printing technology from Stratasys to streamline spare part production for the transport sector.
One of the company’s most recent projects involved producing a set of emergency spare parts for Algeria’s Sétif Tramways, and additive manufacturing was the star of the show. Leveraging Stratasys F370 3D printers, Alstom was able to drastically slash lead times and save Sétif Tramways thousands in manufacturing costs, reducing downtime in the city’s 14-mile transport network.
“The agility that 3D printing gives us is critical for Alstom strategically as a business,” states Aurélien Fussel, Additive Manufacturing Programme Manager at Alstom. “Where our customers depend on spare parts to maintain operations, having this in-house production capability means we can bypass our traditional supply chain and respond quickly and cost-effectively with a solution to their needs.”
Defense and aerospace uses for additive manufacturing range from quick prototyping to spare parts logistics support at sea and in other remote locations.
Even within heavy industries, people often speak of 3D printing in terms of science fiction. With the allure of creating something from nothing, it has been poised to revolutionize prototyping, manufacturing, and resupplying for decades. However, additive manufacturing — another name for 3D printing — also is a reality here and now.
Numerous 3D printing companies offer ready-made menus of different materials and techniques. Some experts say it’s still the way of the future, while others say no one process (or array of sub-processes) can do all the things 3D printing promises to do. So which is it: practical or over-promised?
It is difficult to overstate the challenges faced by global supply chains in the last year-and-a-half. The Covid-19 pandemic, new post-Brexit trade rules and the Suez Canal blockage all played a part in delaying or restricting deliveries, creating bottlenecks and shortages of parts.
Thankfully, says Yann Rageul, the challenges have also encouraged companies to consider new ways of working – and 3D printing could be an ideal candidate for overcoming further disruption.
We spoke to the Stratasys head of manufacturing in the EMEA and APAC regions ahead of his 19 July session on the topic, at our free Engineering Futures webinar series.
There is a tremendous opportunity for additive manufacturing to help overcome the semiconductor shortage, and once again, strengthen supply chains.
Global supply chains have felt the impact of the pandemic for quite some time and continue to face challenges navigating the disruption of production lines even as more regions of the world and business centers gradually re-open and bring more personnel back on-site. The biggest challenge that will remain for the foreseeable future is the shortage of semiconductors, and the signs have been there for months.
Last December, Volkswagen said that semiconductor bottlenecks meant it would produce 100,000 fewer cars in the first quarter of 2021, as its parts makers were unable to secure supplies. Nissan, Renault, Daimler and General Motors are also struggling with the shortage, which may lead to production being reduced by as much as 20% per week.
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.”
Manufacturing system provider Ingersoll Machine Tools has partnered with aviation company Bell to 3D print a 22 foot-long vacuum trim tool – a mold used for the production of helicopter rotor blades.
The project, which resulted in major lead time savings, was completed using Ingersoll’s own large-format hybrid MasterPrint system, a gantry-based 3D printer with integrated 5-axis milling functionality. According to Ingersoll, the MasterPrint is the largest polymer 3D printer in the world. Designed specifically for the production of extra-large production parts, the system can be found at Ingersoll’s headquarters in Rockford, IL.
“We are continuously testing and advancing MasterPrint in our Development Center” said Chip Storie, CEO at Ingersoll. “Among Ingersoll’s short-term objectives is for MasterPrint to 3D print molds for aerospace that preserve the geometrical properties and tolerances, vacuum integrity and autoclave resilience normally obtained with traditional technology, but with the cost and time reduction only additive manufacturing can offer. The relentless progress our MasterPrint process has made in 2020 has finally made this target attainable.”