Simulation of cone bore growth in bearings with a three-ring model

Keyphrases

• Bore Diameter 100%
• Low Temperature Creep 100%
• Ring Model 100%
• Thermally Induced 66%
• Carburization 66%
• Interference Fit 66%
• Induced Phase 33%
• Temperature Effect 33%
• Stress Relaxation 33%
• Mechanics of Materials 33%
• Residual Stress Relaxation 33%
• Material Approaches 33%
• Residual Stress 33%
• Growth Rate 33%
• Simplifying Assumption 33%
• Induced Transformations 33%
• Concentric Rings 33%
• Transformation Temperature 33%
• Circumferential Strain 33%
• Radial Stress 33%
• Approximate Model 33%
• Temperature Interference 33%
• Phase Transformation Temperature 33%
• Circumferential Stress 33%
• Ring Net 33%
• Ring Thickness 33%

Engineering

• Low-Temperature 100%
• Temperature Creep 100%
• Ring Model 100%
• Residual Stress 66%
• Circumferential 66%
• Interference Fit 66%
• Materials Mechanics 33%
• Stress Relaxation 33%
• Simplifying Assumption 33%
• Induced Transformation 33%
• Radial Stress 33%
• Approximate Model 33%
• Case Region 33%
• Carburizing 33%

Material Science

• Creep 100%
• Residual Stress 66%
• Stress Relaxation 33%
• Materials Mechanics 33%
• Carburization 33%