Transcription of Thin-Film Surface Engineering - NFPA
{{id}} {{{paragraph}}}
Example: tourism industry
Thin-Film Surface Engineering - NFPA
Thin-Film Surface Engineering Frank Kustas, PhD Senior Research Scientist IV, AMP Lab Assistant Director, Surface Engineering Research Center South Dakota School of Mines and Tech (SDSM&T) Chief Technology Officer NanoCoatings, Inc. Rapid City SD 4/3/2017 1 2 SDSM&T AMP Lab Surface Processing Range Physical Vapor Deposition - CVD Very Dense, Smooth Surface High Hardness and Toughness Low Friction Virtually Any Material Net Shape / No Final Finishing Thin-Film : nm tens of m ( in.) Thicker: m ( in.) hundred m ( in.) Thick- film / Repair hundreds of m tens of mm (> in.) Hybrid AP-CVD / Nanospray Non-Vacuum Process Oxide / Nanoparticle Layers Superhydrophobic / Icephobic Plasma Electrolytic Oxidation Immersion; Non-Line-of-Sight Crystalline Oxides; High Hardness No Through-Thickness Porosity Green Electrolytes Cold Spray No Melting of Powder Low Heat Input Into
Thin-Film Surface Engineering Frank Kustas, PhD Senior Research Scientist IV, AMP Lab Assistant Director, Surface Engineering Research Center
Tags:
Information
Domain:
Source:
Link to this page:
Please notify us if you found a problem with this document: