The service performance and life of metal parts are closely related to the surface integrity of materials. Shot peening (SP) is a well-known surface strengthening technique and is widely used for the improvement of the component surface integrity in industrial fields, such as aerospace,vehicle, construction machinery and etc. With the rapid development of science and technology, numerous new SP techniques have been developed from the conventional mechanical shot peening, such as the laser shock peening (LSP), ultrasonic shot peening (USP),surface mechanical attrition treatment (SMAT) and etc. Different from the other mechanical processing techniques, a considerable number of process parameters have an influence on the surface strengthening effects of shot-peened metal parts. Therefore, the selection of the SP process parameters with respect to the different metal parts has always been a challenge. With the rapid development of the computer technology, the numerical simulation has increasingly attracted the more and more attentions both from the academy and the industry. Compared to the experimental investigations, the numerical simulations are not only timesaving and economical, but also can provide an insight into the surface strengthening mechanisms of SP.
Sample Chapter(s)
Preface (67 KB)
Components of the Book:
- Preface
- Contents
- Chapter 1. Introduction
- Chapter 2. Constitutive Models Taking into Consideration the High Strain Rate Hardening Effect of Metallic Materials
- Chapter 3.1 Numerical Study on the Residual Stress Field Induced by Shot Peening
- Chapter 3.2 Influence on the Temperature on SP-induced Residual Stresses
- Chapter 3.3 Influence on the Initial Surface Topography on SP-induced Results
- Chapter 3.4 Effects of the SP-induced Residual Stress Field on the Fatigue Crack Propagation
- Chapter 4.1 Laser Shock Peening
- Chapter 4.2 Numerical Study on Grain Refinement Induced by Laser Shock Peening
- Chapter 4.3 Numerical Study on the Stress Wave Induced by Laser Shock Peening
- Chapter 4.4 Numerical Simulation of Laser Shot Peening of TC4 Blade
- Chapter 4.5 Numerical study of microscale laser bulging based on crystal plasticity
- Chapter 5. Numerical Study of Ultrasonic Shot Peening
Readership:
Students, academics, teachers and other people attending or interested in Finite Element Modelling of Shot Peening and Strengthening Mechanism Analysis.
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Preface
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (67 KB)
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3
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Contents
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (132 KB)
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1
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Chapter 1. Introduction
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (703 KB)
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53
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Chapter 2. Constitutive Models Taking into Consideration the High Strain Rate Hardening Effect of Metallic Materials
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (6756 KB)
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91
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Chapter 3.1 Numerical Study on the Residual Stress Field Induced by Shot Peening
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (3603 KB)
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102
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Chapter 3.2 Influence on the Temperature on SP-induced Residual Stresses
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (3265 KB)
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110
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Chapter 3.3 Influence on the Initial Surface Topography on SP-induced Results
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (4091 KB)
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125
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Chapter 3.4 Effects of the SP-induced Residual Stress Field on the Fatigue Crack Propagation
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (4149 KB)
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211
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Chapter 4.1 Laser Shock Peening
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (906 KB)
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226
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Chapter 4.2 Numerical Study on Grain Refinement Induced by Laser Shock Peening
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (3609 KB)
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240
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Chapter 4.3 Numerical Study on the Stress Wave Induced by Laser Shock Peening
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (7311 KB)
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256
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Chapter 4.4 Numerical Simulation of Laser Shot Peening of TC4 Blade
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (11611 KB)
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273
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Chapter 4.5 Numerical study of microscale laser bulging based on crystal plasticity
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (21471 KB)
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297
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Chapter 5. Numerical Study of Ultrasonic Shot Peening
Cheng Wang, Haishun Deng, Xiaogui Wang
PDF (3701 KB)
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Cheng Wang
Ph. D in Power Engineering and Engineering Thermophysics. He was born in 1988, and presently is an associated professor and the supervisor of Master at the school of mechanical engineering in Anhui University of Science & Technology. His research interests include surface engineering, structural integrity analysis, elastic-plastic mechanics. He has published more than twenty academic articles indexed by the SCI and EI.
Haishun Deng
Ph. D in Mechanical Engineering. He was born in 1978, and presently is a professor and the doctoral supervisor of the school of mechanical engineering in Anhui University of Science & Technology. He has chaired 12 national and provincial level research projects, won 2 third prizes of the Provincial Science and Technology Progress Award, 1 second prize and 1 third prize of the Science and Technology Progress Award of the Coal Association. He has compiled 2 Planned Textbooks, published over 60 a
Xiaogui Wang
Ph. D in Solid Mechanics, is currently a professor and doctoral supervisor at the College of Mechanical Engineering, Zhejiang University of Technology. His research interests include the processing techniques and equipment of gradient nanostructured metal materials, the physical and mechanical mechanisms of gradient nanocrystallization, and the mechanical properties of gradient nanostructured metal materials such as fatigue, corrosion, and wear.