To promote the RIGHTWEIGHT challenges a selection of regional workshops were organised. Watch the workshops below from AutomotiveNL, IMAST, NMWP and KIT! Discover more about the support programme and hear from a selection of the challenge providers themselves. Read More
On the 27th of May, we held our RIGHTWEIGHT Global Workshop! The event highlighted the RIGHTWEIGHT support programme, the challenges and how to apply. Read More
Saxion TPAC partners in a University of Twente-led consortium that will be working on research into technological innovations with real economic potential that could help us to achieve a more sustainable world. The research project ENLIGHTEN (Enabling Integrated Lightweight Structures In High Volumes) aims at ‘Reducing CO2 emissions by making vehicles lighter’.
Read the full article below over on the TPAC website. Read More
NMWP.NRW: Printed miniature loudspeaker with a future perspective
It has six corners and is about the size of a 1-cent piece: In an additive manufacturing process, miniature loudspeakers as part of piezoelectric, microelectromechanical systems - so-called piezo-MEMS - can be efficiently and inexpensively manufactured using a combination of inkjet printing and laser technology. This is proven by scientists from the Fraunhofer Institute for Laser Technology ILT, the Institute for Materials in Electrical Engineering 2 (IWE2) at RWTH Aachen University and the Fraunhofer Institute for Silicon Technology ISIT. A corresponding demo component was created as part of the recently completed BMBF joint project »Generative production of efficient piezo-MEMS for microactuators (GENERATOR)«.
Piezo-MEMS are real technical all-rounders, because the wafer-thin piezoelectric layers fulfill either actuator or sensor functions: either they expand when an electrical field is applied or they convert mechanical movement into electrical voltage. They are accordingly in demand in communication or medical technology, for example as sensors or actuators in pumps, valves or speakers - each in miniature format. The thin layers usually consist of lead zirconate titanate (PZT), currently the most powerful piezoelectric functional ceramic. Piezoelectric layers a few μm thick are preferably used, which can be structured very precisely, for example by etching or direct printing.
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World record drive with electric car ends on Sylt
Medicine, aviation and the automotive industry are often dependent on very complex plastic components. With the help of additive manufacturing processes, often also called 3D printing, these can be produced individually, easily and in the right quantities. A widespread and high quality process in this area is so-called laser sintering. A laser first melts a polymer powder and then builds up the desired plastic component in layers. But there is a catch: So far, only a few materials are available for the process, as the production of very fine polymer powders is very complex and corresponding processes are only established for a few materials. In a research project, scientists at the University of Paderborn want to develop new processes for the production of any plastic material in powder form. For this purpose, a laboratory hall was extensively converted, equipped with the necessary equipment and machines and now completed after around two years of planning and construction. The European Regional Development Fund (ERDF) is funding the three-year project with a project volume of around 3.8 million euros.
"Industrial Manufacturing in North Rine Westphalia" (iAMnrw-Materials), so the project title, bundles the competencies of Kunststofftechnik Paderborn (KTP) and the Chair for Particle Process Engineering (PVT) as well as the Chair for Material Science (LWK) for another project for the production of Metal powders and is located centrally in the Paderborn Institute for Additive Manufacturing (PIAF). Read More
Medicine, aviation and the automotive industry are often dependent on very complex plastic components. With the help of additive manufacturing processes, often also called 3D printing, these can be produced individually, easily and in the right quantities. A widespread and high quality process in this area is so-called laser sintering. A laser first melts a polymer powder and then builds up the desired plastic component in layers. But there is a catch: So far, only a few materials are available for the process, as the production of very fine polymer powders is very complex and corresponding processes are only established for a few materials. In a research project, scientists at the University of Paderborn want to develop new processes for the production of any plastic material in powder form. For this purpose, a laboratory hall was extensively converted, equipped with the necessary equipment and machines and now completed after around two years of planning and construction. The European Regional Development Fund (ERDF) is funding the three-year project with a project volume of around 3.8 million euros.
"Industrial Manufacturing in North Rine Westphalia" (iAMnrw-Materials), so the project title, bundles the competencies of Kunststofftechnik Paderborn (KTP) and the Chair for Particle Process Engineering (PVT) as well as the Chair for Material Science (LWK) for another project for the production of Metal powders and is located centrally in the Paderborn Institute for Additive Manufacturing (PIAF).
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IPEK News:
EU-funded innovation project RIGHTWEIGHT started as part of Interreg Northwest Europe
On October the 15th and 27th, the official kick-off for the RIGHTWEIGHT innovation project funded by the EU as part of Interreg Northwest Europe took place. Together with six project partners from Belgium, Germany, France, Italy and the Netherlands, the IPEK - Institute for Product Development works to support small and medium-sized enterprises (SMEs) in developing affordable and environmentally friendly innovations for lightweight construction in order to make the region more competitive To ensure northwest Europe. RIGHTWEIGHT will play a pioneering role in promoting exchange and cooperation between actors in the automotive and aircraft industries.
As part of RIGHTWEIGHT, more than 50 SMEs from 7 different regions of Northwest Europe are supported in developing products that address the challenges of the respective companies. The 20 most promising lightweight innovations are also funded to achieve technology maturity level (TRL) 7. In this way, RIGHTWEIGHT makes an important contribution to generating and securing jobs and sales for companies in the Northwestern Europe region.
- Text by Patrick Haberkern Read More