One layer ahead with Binder Jetting 3D printing: automotive supplier GRATZ Engineering GmbH shows how it's done
One layer ahead with Binder Jetting 3D printing: automotive supplier GRATZ Engineering GmbH shows how it's done
3D printing is evolving from a niche process to high-volume manufacturing technology. Evonik supplies customized materials for all major technologies and is driving forward the development of next-generation printers.
In addition to a well-thought-out digitisation strategy, the right IT infrastructure is of paramount importance. More and more companies are therefore turning to software-as-a-service in the cloud. Instead of purchasing software solutions in a complete package with fixed licences, customised packages via the cloud offer multiple advantages: flexible, scalable and with external IT specialists available at all times in the background.
By Jordi Drieman, 3D application specialist, Mimaki
Developing a product or part can be a long process for even the most experienced or creative design team. Unless they can 3D print their prototypes.
One by one, advancements in technology are stripping away barriers to the widespread adoption of additive manufacturing technology at scale. Today’s 3D printers are faster, more reliable, offer larger build areas, support a wider range of materials and are getting more affordable. As such, the number of manufacturers using 3D printers for limited or full-scale production part runs (as well as the number of 3D printer manufacturers) is growing exponentially every year. Multiple surveys document the enthusiasm decision makers have for additive manufacturing at scale, but an obstacle still holds back many companies from committing: fear of vendor lock-in.
– Full-scale production runs shift from tens to hundreds of thousands
– Additive manufacturing proven for supply chain resilience during the pandemic
– New materials expectations alongside growing applications
TÜV SÜD, commissioned by the LEHVOSS Group and Ultimaker, has certified the 3D printing process in the combination of LUVOCOM® 3F filament and Ultimaker printer. This includes the material properties, the test specimen production - including the dimensional tolerances, the production of the filament and the printing process. Furthermore, emissions during the printing process were measured.
As the pandemic accelerates workforce innovation, employees are prioritizing the pursuit of personal passions, reskilling and retraining themselves for the future of work
Global HP study finds that digital manufacturing can drive economic growth, faster innovation, and more sustainable production
Report underscores the use of 3D printing as a learning tool to drive engagement with students and help them develop critical thinking, problem-solving, and design thinking skills
Whether for bonding or marking of plastic components, wire bonding processes on metallic contact pads or the production of energy storage devices: Adhesion plays a decisive role for product quality and process stability in many areas of the electronics industry. Plasma is increasingly being used in the electronics industry to optimally prepare the surfaces of a wide variety of materials for such adhesion processes. This technology enables selective treatment of functional surfaces on plastics, metals or composites to improve a number of subsequent processes. While conventional atmospheric pressure plasma systems must be permanently integrated into systems with appropriate gas supply, extraction and safety concepts, the cold plasma handheld device piezobrush® PZ3 offers the possibility of uncomplicated and manual optimization of surfaces.