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Metal surface layer structure formation under sliding friction
I. I. Garbar
, J. V. Skorinin
Research output
:
Contribution to journal
›
Article
›
peer-review
52
Scopus citations
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Dive into the research topics of 'Metal surface layer structure formation under sliding friction'. Together they form a unique fingerprint.
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Keyphrases
Structure Formation
100%
Metal Surface
100%
Wear Particles
100%
Sliding Friction
100%
Surface Layer Structure
100%
Sliding Contact
66%
Surface Layer
33%
Transmission Electron Microscopy
33%
Low Carbon Steel
33%
Flow Restriction
33%
Cellular Structure
33%
Fully Developed
33%
Particle Formation
33%
Plastic Deformation
33%
Cell Boundary
33%
Disorientation
33%
Neighboring Cells
33%
Subsurface Layer
33%
Frictional Contact
33%
Fragmented Structure
33%
Wear Mechanism
33%
Mild Wear
33%
Severe Wear
33%
Sliding Direction
33%
Fatigue Theory
33%
Stress Concentrator
33%
Metal Flow
33%
Reciprocating Motion
33%
Engineering
Surface Layer
100%
Layer Structure
100%
Sliding Friction
100%
Sliding Contact
66%
Transmissions
33%
Subsurface
33%
Plastic Deformation
33%
Frictional Contact
33%
Boundary Cell
33%
Neighboring Cell
33%
Mild Steel
33%
Metal Flow
33%
Mild Wear
33%
Reciprocating Motion
33%
Severe Wear
33%
Material Science
Metal Surface
100%
Sliding Friction
100%
Sliding Contact
100%
Transmission Electron Microscopy
50%
Low Carbon Steel
50%
Plastic Deformation
50%
Cellular Structure
50%
Particle Formation
50%