第十二章 弯曲问题进一步研究
  §12-1 非对称弯曲正应力
  §12-2 薄壁截面梁的弯曲切应力
  §12-3 截面剪心
  *§12-4 复合梁与夹层梁
  *§12-5 曲梁
  复习题
  习题
 第十三章 能量法
  §13-1 外力功、应变能与克拉比隆定理
  §13-2 互等定理
  §13-3 卡氏定理
  §13-4 变形体虚功原理
  §13-5 单位载荷法
  *§13-6 图形互乘法
  *§13-7 剪力对梁位移的影响
  *§13-8 确定压杆临界载荷的能量法
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 第十四章 静不定问题分析
  §14-1 引言
  §14-2 用力法分析静不定问题
  §14-3 对称与反对称静不定问题分析
  §14-4 静不定刚架空间受力分析
  *§14-5 连续梁与三弯矩方程
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 第十五章 动载荷
  §15-1 引言
  §15-2 惯性力问题
  §15-3 冲击应力分析
  *§15-4 振动应力分析
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 第十六章 疲劳
  §16-1 引言
  §16-2 循环应力的描述与类型
  §16-3 S-N曲线与材料的疲劳极限
  §16-4 影响构件疲劳极限的主要因素
  §16-5 对称循环应力下的疲劳强度计算
  *§16-6 非对称与弯扭组合循环应力下的疲劳强度计算
  *§16-7 变幅循环应力与累积损伤理论概念
  *§16-8 应力强度应子与断裂韧度概念
  *§16-9 裂纹扩展与构件疲劳寿命估算简介
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 第十七章 应力分析的实验方法
  §17-1 引言
  §17-2 电测法的基本原理
  §17-3 电阻应变仪
  §17-4 应变测量与应力计算
  §17-5 光弹性仪与偏振光场
  §17-6 光弹性法的基本原理
  §17-7 应力光图的观测与边界应力计算
  *§17-8 切应力差法与计算机辅助光弹性法简介
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 *第十八章 杆与杆系分析的计算机方法
  §18-1 位移法概念
  §18-2 刚度矩阵与等效节点载荷概念
  §18-3 刚架单元的特性分析
  §18-4 梁与桁架单元的特性分析
  §18-5 杆与杆系的计算机分析
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  计算机作业
 *第十九章 考虑材料塑性的强度计算
  §19-1 轴向拉压静不定问题的极限载荷
  §19-2 圆轴的极限扭矩
  §19-3 梁的极限弯矩
  §19-4 梁的极限载荷
  复习题
  习题
 参考文献
 习题答案
 索引
 Synopsis
 作者简介
 Chapter 12 Further Studies of Bending Problems
  12-1 Normal Stresses in Unsymmetrical Bending
  12-2 Shearing Stresses in Thin-Walled members
  12-3 Shear Center
  *12-4 Composite Beams;Sandwich Beams
  *12-5 Curved Beams
  Problems and Exercises
 Chapter 13 Strain-Energy Methods
  13-1 External Work，Strain Energy and Clapeyron's Theorem
  13-2 Reciprocal Theorem
  13-3 Castigliano's Theorem
  13-4 Principle of Virtual Work for Deformable Body
  13-5 Unit-Load Method
  13-6 Using Geometrical Method to Determine the Deflection of Members
  13-7 Effect of Shearing Force on the Deflection of Beams
  13-8 Critical Load of Columns by Strain-Energy Method
  Problems and Exercises
 Chapter 14 Analysis of Statically Indeterminate problems
  14-1 Introduction
  14-2 Using Force Method to Solve Statically Indeterminate problems
  14-3 Analysis of Statically Indeterminate problems under symmetric and
 antisymmetric loading
  14-4 Statically Indeterminate Frames under Lateral Loading
  *14-5 Continuous Beams;Three-Moment Equations
  Problems and Exercises
 Chapter 15 Dynamic Loading
  15-1 Introduction
  15-2 Stresses Produced by Inertia Forces
  15-3 Stresses Produced by Impact
  *15-4 Stresses Produced by Vibration
  Problems and Exercises
 Chapter 16 Fatigue
  16-1 Introduction
  16-2 Alternating Stress and its Type
  16-3 S-N Curve;Fatigue Limit of Materials
  16-4 Main Factors affecting the Endurance Limit
  16-5 Fatigue Analysis of Members under Reverse Stress
  *16-6 Fatigue Analysis of Members under Non-reverse Stress and
 Combind Bending and Torsion
  *16-7 Variable-Amplitude-Cycle Stress;Cumulative Damage Theorem
  *16-8 The concepts of Stress Intensity Factor and Fracture Toughness
  *16-9 A Brief Introduction to Propagation of Crack and Fatigue Life of Members
  Problems and Exercises
 Chapter 17 Experimental Stress Analysis
  17-1 Introduction
  17-2 Basic Principle of Electrical-Resistance Strain-Gage Method
  17-3 Resistance Strain Indicator
  17-4 Strain Measurement and stress Analysis
  17-5 Photograph and Polarized Light Field
  17-6 Basic principle of Photoelasticity Method
  17-7 Stress-Optic Pattern;Analysis of Boundary Stress
  *17-8 Shear Deference Method;Computer-Aided Photoelasticity
  Problems and Exercises
 Chapter 18 Analysis of Bar and Bar System by Using Computer Method
  18-1 Introduction to Displacement Method
  18-2 Stiffness Matrix and Equivalent Nodal Load
  18-3 Characteristic Analysis of Frame Element
  18-4 Characteristic Analysis of Beam and Truss Elements
  18-5 Using Computer to Analysis the Bar and Bar system
  Problems and Exercises
 Chapter 19 Plastic Analysis
  19-1 Limit Load of Satirically Indeterminate Problem in Tension and Compression
  19-2 Limit Torque of Circular Shafts
  19-3 Limit Bending Moment of Beams
  19-4 Limit Load of Beams
  Problems and Exercises
 Reference
 Answers
 Index
 Synopsis
 Contents
 A Brief Introduction to the Author