Process Optimization of Reaction Nitrogen Arc Welding Cladding TiCN/Fe Metal Ceramic Composite Coating
p.1279
p.1279
Study on TiAl(CN) Particle Reinforce Composites Coating Prepared by Reaction Nitrogen Arc Welding Cladding Process
p.1283
p.1283
Research on Transfer Coater with High Precision for Electrodes
p.1287
p.1287
Machined Surfaces Texture Analysis Based on Hough Transform and Run Length Statistics
p.1292
p.1292
Wear Resistance of Plasma Surface Copper Infiltrated on 0Cr18Ni9 Stainless Steel
p.1297
p.1297
Effects of H2O2 on Characteristics of Films Formed on Surface of Ti6Al4V in Electrolyte by Micro-Arc Oxidation
p.1301
p.1301
Analysis on Residual Stress in TiN Coating with Different Thicknesses
p.1306
p.1306
A New Surface Reconstruction Algorithm for Noisy 3D Unorganized Points
p.1312
p.1312
Effect of Multilayer Technology on Surface Properties of Diamond Coated Silicon Carbide with Surface Defects
p.1318
p.1318
Wear Resistance of Plasma Surface Copper Infiltrated on 0Cr18Ni9 Stainless Steel
Abstract:
The copper infiltrated stainless steel was formed by double glow plasma surface metallurgy technology on 0Cr18Ni9 steel. A comparative test with untreated samples was carried out. The results indicates that the friction coefficient decreases with the load increasing, and copper infiltrated stainless steel is superior to untreated samples in wear rate and wear resistance, finally makes an analysis of the reasons.
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Periodical:
Applied Mechanics and Materials (Volumes 217-219)
Pages:
1297-1300
Citation:
Online since:
November 2012
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© 2012 Trans Tech Publications Ltd. All Rights Reserved
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