Wear Behaviour of Recycled Hard Particle Reinforced NiCrBSi Hardfacings Deposited by Plasma Transferred Arc (PTA) Process
p.179
p.179
Abrasive Wear Resistance of Recycled Hardmetal Reinforced Thick Coating
p.185
p.185
Tribological Parameters of Copper-Alumina Composite
p.191
p.191
UV or AO Irradiation Effects on the Tribological Properties of the Talc/GF/PI Composites
p.197
p.197
Tribological Behavior of Bronze Alloys with Solid Lubricants
p.205
p.205
Effects of Strain and Strain Rate on the Abrasive Wear Behavior of High Manganese Austenitic Steel
p.211
p.211
The Study of the Tribological Properties of One-Process and Two-Process Textures after Vapour Blasting and Lapping Using Pin-on-Disc Tests
p.217
p.217
Impact and Sliding Wear Properties of Single Layer, Multilayer and Nanocomposite Physical Vapour Deposited (PVD) Coatings on the Plasma Nitrided Low-Alloy 42CrMo4 Steel
p.223
p.223
Development and Testing of Materials with Reduced Wear by Fixed Abrasive
p.229
p.229
Effects of Strain and Strain Rate on the Abrasive Wear Behavior of High Manganese Austenitic Steel
Abstract:
An abrasive wear analysis of the hardened surface layer in high austenitic manganese steel is presented to determine the effects of plastic strain and strain rate. The pre-deformation levels used in this study represent the typical surface layers resulting from the abrasive contact of Hadfield type steels. The effect of dynamic loading used in the pre-straining is accounted for alongside with various plastic strain levels. A friction study of the surface was included to determine the localization of work hardening and the ability of the microstructure to resist abrasion.
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Info:
Periodical:
Key Engineering Materials (Volume 527)
Pages:
211-216
Citation:
Online since:
November 2012
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