The last several decades have witnessed an unprecedented development in experimental and analytical tools to engineer and examine surfaces that have been put through some tribological process. New coatings with harnesses at or above that of diamond are now routinely deposited and used in special applications, monolayer films protect surfaces from inadvertent contact, atomic scale tribological properties are routinely measured, and molecular dynamics calculations simulate lubrication, adhesion, wear and sub-surface damage. These advances have expanded our view of tribological processes and extended applications of data storage, microelectronic devices, gear lubrication, and biological implants. WOM 1999 addresses these issues by focusing on coatings, modeling, nano-scale processes and materials wear mechanisms.
The last several decades have witnessed an unprecedented development in experimental and analytical tools to engineer and examine surfaces that have been put through some tribological process. New coatings with harnesses at or above that of diamond are now routinely deposited and used in special applications, monolayer films protect surfaces from inadvertent contact, atomic scale tribological properties are routinely measured, and molecular dynamics calculations simulate lubrication, adhesion, wear and sub-surface damage. These advances have expanded our view of tribological processes and extended applications of data storage, microelectronic devices, gear lubrication, and biological implants. WOM 1999 addresses these issues by focusing on coatings, modeling, nano-scale processes and materials wear mechanisms.
Sprache
Verlagsort
Verlagsgruppe
Elsevier Science & Technology
Zielgruppe
Für höhere Schule und Studium
Für Beruf und Forschung
Gewicht
ISBN-13
978-0-08-043007-2 (9780080430072)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Klassifikation
Herausgeber*in
Materials Science & Engineering, Ohio State University, Columbus, OH 43210-1179, USA
Vestal, NY 13850, USA
Selected papers: Wear modelling: analytical, computational and mapping: a continuum mechanics approach (J.A. Williams). Reduce maintenance costs by using engineered surfaces to control friction and galling (D.N. Hopkins et al.). Fretting wear of multilayered (Ti,A1)N/TiN coatings in air of different relative humidity (M.Z. Huq, J.P. Celis). Influence of the grain size of the alumina coating on crack initiation in indentation (F. Yuan, K. Hayashi). Polymeric coatings for impact and wear resistance I: Wear (N. Symonds, B.G. Mellor). Sliding wear behavior of high velocity oxy-fuel and high power plasma spray-processed tongsten carbide based cermet coatings (J. Voyer, B.R. Marple). Three-body abrasion of A1-SiC composites (K.S. Al-Rubaie et al.). Abrasive wear behavior of particle reinforced ultrahigh molecular weight polyethylene composites (C. Liu et al.). Study of the surface modification resulting from an internal magnetic abrasive finishing process (H. Yamaguchi, T. Shinmura). Acoustic emission signals for tool wear identification (S. Dolinsek, J. Kopač). The effect of load and relative humidity on friction coefficient between high density polyethylene on galvanized steel-preliminary results (C.H. Da Silva et al.). Wear of TiC-coated carbide tools in dry turning (C.Y.H. Lim et al.). Modelling slurry particle dynamics in the Coriolis erosion tester (Y. Xie et al.). Nanoscale tribophysics and tribomechanics (B. Bhushan). Erosive wear behaviour of thick chemical vapour deposited diamond coatings (D.W. Wheeler, R.J.K. Wood). Experimental investigation of long-term fretting wear of multi-span steam generator tubes with U-bend sections (M.H. Attia, F. Magel). Effects of material pair properties on the frictional behavior of metals (D.-H. Hwang et al.). The abrasive wear of sintered titanium matrix-ceramic particle reinforced composites (D.E. Alman, J.A. Hawk).
