What people are saying - Write a review
We haven't found any reviews in the usual places.
Friction and Wear of SelfLubricating TiNMoS2 Coatings Produced by Chemical
Laser Surface Melting of Carbide Coatings and Their Tribological Behavior
LowAmplitude Fretting of Hard Coatings of TIN DiamondLike Carbon
Friction and Wear Mechanisms on CVD Diamond and PVD TiN Coatings Under
Absorption of Organic Compounds and Organometallics on Ceramic Substrates
Nanoindentation and Instrumented Scratching Measurements on Hard Coatings
Studies on the Characterization and Tribological Behavior of SelfPropagating
Other editions - View all
abrasive wear adsorbed adsorption alloys alumina amplitude analysis applied ASTM International carbide carbon ceramic cermet chemical vapor deposition chromium coating surface coefficient of friction composite coatings corundum counterbody cracking cycles damage diamond coatings displacement stroke elastic modulus electron film thickness film-substrate interface flexure stresses frequency fretting maps friction and wear friction coefficient fusion gross slip hard coatings hardening hardfacing heat of adsorption i i i i I i i i i increase indentation interface stresses ion implantation laser surface-melted layer lubrication LW-1N40 coating measured mechanical melting metal micrograph microstructure MoS2 naphthalene nitride normal force oxide partial slip porosity salicylic acid scratching shear shown in Fig SHS coating silicon steel substrate substrate Surface Coatings surface engineering surface engineering processes surface treatments tangential force tensile thermal spray TiN coating titanium tool tractions tribological unloading vibrating contact wear resistance wear testing WT-1 coating zirconia
Page 145 - A Method for Interpreting the Data from Depth-Sensing Indentation Instruments", Journal of Materials Research, Vol.
Page 145 - Microindentation Techniques in Materials Science and Engineering, ASTM STP 889, PJ Blau and BR Lawn, eds., American Society for Testing and Materials, Philadelphia, 1986, 72-89. 3. WC OLIVER, R. HUTCHINGS, and JB PETHICA: 'Measurement of Hardness at Indentation Depths as Low as 20 Nanometers...