| Document Date: 2007-01-15 22:53:04
Open Document File Size: 2,31 MBShare Result on Facebook
Company Paul D. Merica Research Laboratory / Material Au Cu Ag / Ge / Zr Hf / / Country United States / / Currency USD / / Facility Vibratory mill Horizontal / Paul D. Merica Research Laboratory / mill Spex / mill Vibratory / Pulverisette mill / Vibratory mill Vibratory / Tulane University / / IndustryTerm metal / gas turbine applications / potential applications / elastic energy / postattrition processing / metal powders / stainless steel / high-energy ball milling / metal matrix composite powders / carbon steel / metal matrix composites / free energy / reaction product / lower energy mills / stainless steel vial / energy impact / size reduction equipment / metal powder / potential nonequilibrium processing technique / surface energy / maximum energy / hardened steel / chrome steel / high-energy / supersaturated solid solutions / chemical reaction / device applications / rubber / steel balls / powder products / metallic systems / alloy systems / ceramic processing / hardened steel balls / mechanical attrition devices / high-energy ball mill / energy / steel / mechanical device / / Organization Federal Communications Commission / Tulane University / New Orleans / Brian S. Mitchell Department of Chemical Engineering / / Person Claudio L. De Castro / Brian S. Mitchell / Al Milling / John Benjamin / Hashimoto / Mitchell Figure / / Position patent attorney / / ProvinceOrState Louisiana / Massachusetts / / Technology dielectric / crystallization / heat transfer / /
SocialTag |
CHAPTER 1 Nanoparticles from Mechanical Attrition