BMWi: Technology transfer lightweight construction |
KMU-innovative: Bioeconomy |
BMWi: WIPANO |
KMU-innovative: Medical Engineering |
KMU-innovativ: Production Research |
KMU-innovative: Photonic and quantum technologies |
Announcement of the BMWi: EXIST |
KMU-innovative: Ressource Efficiency and Climate Protection |
KMU-innovative: Photonics |
BMBF: Battery 2020 Transfer |
BMBF: HyMat |
BMBF: Innovative medical technology |
BMVI: Hydrogen and Fuel Cell Technology Innovation Program Phase II |
BMWI: Investments for vehicle manufacturers and supplier industry |
BMWi: Starting signal for future investments in the automotive industry |
BMBF: European security research |
BMBF: High-performance components and optimized materials for quantum communication |
KMU-innovative: Interactive technologies for health and quality of life |
KMU-innovative: Resource efficiency and climate protection |
Mechanical components are subject to various tribological demands and thus a limited efficiency and life span. Here plasma surface technology offers the possibility of reducing friction and wear. In the competence field mechanical engineering companies and institutions are acting, dealing with surface treatment and coating of machining parts particularly in the area of the friction reduction, the wear and corrosion protection. A further emphasis of surface functionalization is e.g. non-adhesive characteristics or sensory abilities. Typical topics are up ratings with bearings and drive components, reduction of the drive power from spherical valves or thin section sensor systems to the measuring of strength, way, temperature and abrasion.
28th INPLAS-WG "Novel Plasma Sources and Processes"
28.06.2022, Stuttgart
21.-22.09.2022, Mannheim
29th INPLAS-WG "Novel Plasma Sources and Processes"
24.11.2022