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　　The purpose of this book is to analyze the deformation mechanism of magnesium alloy and its welding joints under static loading and cyclic loading and the characterization by using the infrared thermography. Chapter 1 and Chapter 2 show the general introduction of the mechanical properties of magnesium alloy and the preparation process for the tests. From Chapter 3 to Chapter 5, the deformation behavior of magnesium alloy under static loading， cyclic loading and the corresponding temperature evolution are analyzed The heat generation mechanism is discussed during the crack propagation process. The Chapter 6 discusses the anisotropy of fatigue properties and heat generation of magnesium alloy. Chapter 7 and Chapter 8 predict the fatigue life and the crack propagation performance of magnesium alloy by infrared thermography. Finally， Chapter9 is the research prospect.

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• Contents
  Preface
  Symbols, Acronyms and Units
  Chapter I Introduction of Fatigue Behavior of Magnesium Alloy and Its Welding Joints 1
  1.1 Research Background and Significance 1
  1.2 The Performance of Magnesium Alloy 2
  1.3 Energy Dissipation in Fatigue Procession of Magnesium Alloy 6
  1.4 Characterization of Magnesium Alloy's Fatigue Behavior by UsingInfrared Thermography 11
  1.5 The Influence of Microstructure on the Heat Generation Mechanism 17
  1.6 The Research Content 21
  References
  Chapter 2 Test Methods and Theoretical Foundation 29
  2.1 Introduction 29
  2.2 Materials and Test Approach 29
  2.3 Test Equipment and Parameters 34
  2.4 Test Methods 36
  2.5 Summary 45
  References 45
  Chapter 3 Temperature Character Under Tensile Loading 46
  3.1 Introduction 46
  3.2 Temperature Evolution Model of Magnesium Alloy During the Tensile Process 46
  3.3 Infrared Characterization of Magnesium Alloy During the Tensile Process 51
  3.4 Infrared Characterization of Stress Concentration Factor 53
  3.5 Sunuuary 55
  References 56
  Chapter 4 Temperature Evolution During High-cycle Loading 57
  4.1 Introduction 57
  4.2 The Temperature Evolution Under Cyclic Loading 57
  4.3 The Temperature Evolution Model 60
  4.4 The Irreversible Deformation Under Cyclic Loading 64
  4.5 The Work-Hardening Behavior Under Cyclic Loading 65
  4.6 The Microstructure Evolution During Cyclic Loading 70
  4.7 Finite Element Analysis of Temperature Evolution DuringFatigue Loading 79
  4.8 Summary 84
  References 85
  Chapter 5 The Temperature Evolution During Fatigue Crack Propagation 87
  5.1 Introduction 87
  5.2 The Stress Statement of Crack Tip During Cyclic Loading 87
  5.3 The Thermal Mechanism of the Crack Tip 89
  5.4 The Analyses of Plastic Zone and Infrared Characterization 90
  5.5Infrared Characterization of Fatigue Crack Propagation 94
  5.6 Summary 97
  References 97
  Chapter 6 The Temperature Anisotropy Study During Cyclic Loading 98
  6.1 Introduction 98
  6.2 The Microstructures of Magnesium Alloy Matrix 98
  6.3 Temperature Anisotropy Under Tensile Loading 104
  6.4 The Influence of Texture on the Heat Generation During High-cycle Loading 105
  6.5 Crack Propagation Anisotropy Under Cyclic Loading 108
  References 112
  Chapter 7 Fatigue Life Assessment of Magnesium Alloy Based on the Temperature Evolution 113
  7.1 Introduction 113
  7.2 The Relationship Between Temperature Evolution and Fatigue Life 113
  7.3 The Cyclic Strength Quick Tests of Magnesium Alloy 118
  References 137
  Chapter 8 Fatigue Life Assessment of Magnesium Alloy Welding Joints 139
  8.1 Introduction 139
  8.2 The Microstructure of Welding Joints 139
  8.3The Quick Tests of Welding Joints' Endurance Limit 143
  8.4 Fatigue Crack Propagation of Welding Joints by the Infrared Method 153
  References 162
  Chromatic Graph
  Chromatic Table