Effect of shot peening temperature on the microstructure induced by surface severe plastic deformation on an austenitic stainless steel

Keyphrases

• 316L Austenitic Stainless Steel 25%
• Advanced Applications 25%
• Austenitic Stainless Steel 100%
• Compressive Residual Stress 25%
• Controlled Temperature 25%
• Cryogenic Surface 25%
• Deformation Mechanism 25%
• Deformation Stress 25%
• Dislocation Dynamics 25%
• Dislocation Glide 25%
• Dynamic Recrystallization 25%
• Elevated Temperature 25%
• Low Temperature 25%
• Mechanical Performance 25%
• Microstructure 100%
• Microstructure Modification 25%
• Residual Stress Evolution 25%
• Residual Stress Gradient 25%
• Shot Peening 100%
• Surface Hardness 25%
• Surface Layer 25%
• Surface Mechanical Attrition Treatment 100%
• Surface Properties 25%
• Surface Severe Plastic Deformation 100%
• Thermal Softening Effect 25%
• Transformation-induced Plasticity 25%
• Twinning-induced Plasticity 25%
• Wide Temperature Range 25%

Engineering

• Austenitic Stainless Steel 100%
• Compressive Residual Stress 50%
• Deformation Mechanism 50%
• Dislocation Glide 50%
• Dynamic Recrystallization 50%
• Elevated Temperature 50%
• Induced Plasticity 100%
• Low-Temperature 50%
• Mechanical Performance 50%
• Plastic Deformation 100%
• Residual Stress 100%
• Shot Peening 100%
• Stress Gradient 50%
• Surface Layer 50%
• Temperature Range 50%
• Thermal Softening 50%

Material Science

• Austenitic Stainless Steel 100%
• Deformation Mechanism 33%
• Plastic Deformation 100%
• Residual Stress 100%
• Shot Peening 100%
• Surface (Surface Science) 100%
• Surface Property 33%