材料力学 英文版
作者:夏冬生,张爱锋 主编
出版时间:2015年版
内容简介
《材料力学(英文版)》共包含9章:1.Introduction简介;2.Axial Tension (Compression), Mechanical Properties of Materials and Shear轴向拉伸(压缩),材料的机械性能与剪切;3.Torsion扭转;4.Shear Forces and Bending Moments in Beams梁弯曲内力:剪力和弯矩;5.Stress Due to Bending弯曲应力;6.Deflection of Beams梁的弯曲变形;7.Stress-State Analysis and Strength Theories应力状态分析和强度理论;8.Combined Deformation组合变形;9.Stability of Columns压杆稳定。
目录
Chapter 1 Introduction
1.1 Tasks of Mechanics of Materials
1.2 Basic Assumptions of Solid Bodies
1.3 Internal Forces, Stresses and Section Method
1.4 Strain
1.5 Basic Deformation Forms of Members
Chapter 2 Axial Tension (Compression), Mechanical Properties of Materials and Shear
2.1 Axial Force and Diagram of Axial Force
2.2 Normal Stress on the Cross Section of Members in Tension (Compression)
2.3 Stress on the Inclined Section of Members in Tension (Compression)
2.4 Stress Element of Members in Tension (Compression)
2.5 Mechanical Properties of Materials in Tension
2.6 Mechanical Properties of Materials in Compression
2.7 Allowable Stress and Strength Condition
2.8 Deformation of Members in Tension (Compression)
2.9 Stress Concentration
2.10 Shear and Practical Calculation of Strength of Connectors
2.11 Pure Shear
2.12 Hooke\’ s Law in Shear
Exercises
Chapter 3 Torsion
3.1 External Torque, Power and Rotational Speed
3.2 Torque and Torque Diagram
3.3 Torsional Shear Stress of Circular Shafts
3.4 Polar Moment of Inertia for Circular Shafts and Tubes
3.5 Torsional Shear Stress of Thin-Wall Tubes
3.6 Torsional Strength Condition for Circular Shafts
3.7 Torsional Deformation and Rigidity Condition of Circular Shafts
Exercises
Chapter 4 Shear Forces and Bending Moments in Beams
4.1 Shear Force and Bending Moment
4.2 Relation between Load, Shear Force and Bending Moment
Exercises
Chapter 5 Stress Due to Bending
5.1 Normal Stress in Pure Bending
5.2 Normal Stress in Transverse Bending
5.3 Moments of Inertia of Common Cross Sections and Parallel Axis Theorem
5.4 Shear Stress in Bending
5.5 Measures to Enhance the Bending Strength of Beams
Exercises
Chapter 6 Deflection of Beams
6.1 Deflection and Slope of Beams
6.2 Approximate Differential Equation of the Deflection Curve
6.3 Integration Method
6.4 Method of Superposition
6.5 Rigidity Condition of Beams
Exercises
Chapter 7 Stress-State Analysis and Strength Theories
7.1 The Stress Element
7.2 Plane-Stress Transformation
7.3 Mohr\’ s circle
7.4 Generalized Hooke\’ s Law
7.5 Strength Theories and Equivalent Stress
Exercises
Chapter 8 Combined Deformation
8.1 Introduction
8.2 Bending and Tension or Compression
8.3 Bending and Torsion
Exercises
Chapter 9 Stability of Columns
9.1 Introduction
9.2 Critical Load for Slender Columns
9.3 Range of Applicability for Euler\’ s Formula, Empirical Formulas and the Requirement of Stability
Exercises
Appendix I Properties of Steel Shapes
Appendix II Slopes and Deflections of Beams under Simple Loading Conditions
References