HiPIMS Today 2023Posted on February 27, 2023 by Administrator PLASUS將於March 22nd -24th, 2023在HiPIMS Today 2023 (High-Power Impulse Magnetron Sputtering)有虛擬會議室與各位透過網路上進行各種技術上的討論,歡迎報名參加。This entry was posted in Conference and tagged AOT, EMICON, HIPIMS, PLASUS, ...
Most applications today are in the hard coating sector. Also still ongoing improvement and development in the field of pulse generation and power supplies was presented.The scientific and application oriented research topics were addressing reactive HIPIMS processes, modeling and simulation, optical ...
2024, Materials Today Communications Citation Excerpt : Vinolia et al. [18] studied the effect of NbN addition on the mechanical properties of TiAl, and found that it can improve the microhardness of TiAl-NbN composite materials. Papken [19] verified the strengthening effect of TiN/NbN superlatt...
excellent adhesionhigh power impulse magnetron sputteringHIPIMSphysical vapor depositionplasticsPMMAPVDvacuum coatingEven if polymers are today industrially used for decades the direct metallization of plastics is still a hot topic for research and development. High power impulse magnetron sputtering HIPIMS is...
Metallization of plastic parts today is mainly realized using electroplating. Within the European Union the use of chromium VI will be restricted by 2017 following the REACH directive. This besides other aspects like environmental friendliness is driving the development of alternatives. Evaporation as ...
All loads produced adhesive wear on the coating.doi:10.1016/j.mtcomm.2020.101597César Daniel Rivera-TelloFrancisco Javier Flores-RuizM. Flores-JiménezJ. Perez-AlvarezM. FloresMaterials Today Communications
304 Stainless steelTernary TiZrN coatingCorrosionTribocorrosion behavior[Display omitted]doi:10.1016/j.mtcomm.2022.103258Yulin ZhangFei ChenY. ZhangMenghao LiuYajie PangJing YanC. DuMaterials Today Communications
Varghese, V.; Chakradhar, D.; Ramesh, M. Micro-mechanical characterization and wear performance of TiAlN/NbN PVD coated carbide inserts during End milling of AISI 304 Austenitic Stainless Steel.Mater. Today Proc.2018,5, 12855–12862. [Google Scholar] [CrossRef] ...