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A crystal plasticity model for sliding frictional thermal contact of gradient nanostructures
Jia Lin Zhou
, Fei Shen
*
, Zheng Zhang
, Gan Yun Huang
,
Sami El-Borgi
, Liao Liang Ke
*
*
Corresponding author for this work
HBKU College of Science and Engineering
Tianjin University
National Key Laboratory of Vehicle Power System
Research output
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peer-review
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Engineering
Coefficient of Friction
16%
Critical Resolved Shear Stress
16%
Crystal Plasticity Model
100%
Dislocation Density
50%
Frictional Contact
16%
Frictional Sliding
100%
Grain Size
33%
Heat Generation
16%
Induced Damage
16%
Material Parameter
16%
Mechanical Response
16%
Microscale
16%
Nanomaterial
100%
Plastic Strain
16%
Temperature Rise
16%
Tensile Stress σ
16%
Tensiles
16%
Material Science
Crystal Microstructure
33%
Crystal Plasticity
100%
Density
50%
Grain Size
33%
Homogenization
16%
Nanoindentation
16%
Nanostructure
100%
Ultimate Tensile Strength
16%
Keyphrases
Dislocation Density Evolution
33%
Form Coefficient
16%
Gradient Nanostructure
100%
Homogeneous Grain
33%
Homogenization Method
16%
Induced Damage
16%
Microscale Characteristics
16%
Thermal Contact
100%
Thermo-mechanical Field
16%