Case studies
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Coatings for New Efficient and Clean Coal Power Plants
Steam turbine components face various challenges, related to higher temperatures such as material failure due to high temperature oxidation, and phenomena such as creep and erosion caused by descaled fragments. HIPIMS deposited CrN/NbN coatings utilising nanoscale multilayer structure have shown a promising performance when subjected to various types of high temperature tests in an aggressive pure steam environment.
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Revolutionary Novel Nanostructured HIPIMS Coatings for Orthopaedic Implant Applications.
Revolutionary Novel Nanostructured HIPIMS Coatings for Orthopaedic Implant Applications
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Environmentally friendly Mo- and W- doped Carbon coatings utilising tribo- chemical reactions to achieve "in-situ" formation of lubricious phases in conditions of boundary lubrication.
The National HIPIMS Technology Centre developed a carbon-based coating, which is simultaneously doped with Mo and W.
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Dry High Speed Machining of Hardened Steel
Innovative processes and materials to synthesize knowledge-based ultra-performance nanostructured PVD thin films on gamma titanium aluminides
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innovaTiAl Innovative coatings for aerospace, energy and automotive industry
Innovative processes and materials to synthesize knowledge-based ultra-performance nanostructured PVD thin films on gamma titanium aluminides
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ALTiCUT - Novel HIPIMS deposited TiAlCN/VCN Nanoscale Multilayer PVD Coatings Dedicated to Machining of Al and Ti Alloys and MMC Materials
Innovative processes and materials to synthesize knowledge-based ultra-performance nanostructured PVD thin films on gamma titanium aluminides
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Novel HIPIMS deposited TiAICN/VCN Nanoscale Multilayer PVD Coating Dedicated to Machining of AI and Ti Alloys and MMC Materials
Novel HIPIMS deposited TiAlCN/VCN Nanoscale Multilayer PVD Coatings Dedicated to Machining of Al and Ti Alloys and MMC Materials
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Zimmer Biomet and Ionbond novel ceramic coating
Zimmer Biomet and Ionbond case study of a novel ceramic coating for reduced metal ion release in metal‐on‐metal hip surgery