- 中国科学技术大学出版社
- 9787312028564
- 124699
- 0047157658-7
- 平装
- 16开
- 2011年
- 工学
- 材料科学与工程
- TB301
- 材料类
- 研究生、本科
内容简介
王开福编著的《材料力学(理工科核心课程双语规划教材)》是材料力学双语教材,系统论述了材料力学的基本概念、基础理论、计算方法和工程应用。《材料力学(理工科核心课程双语规划教材)》由13章正文和4个附录组成,正文内容包括应力与应变(Stresses andStrains)、材料的机械性能(Mechanical Properties of Materials)、杆的轴向拉伸与压缩(Axial Tension and Compression of Bars)、轴的扭转(Torsion of Shafts)、梁的剪力与弯矩(Shearing Force and Bending Moment of Beams)、梁的正应力与剪应力(Normal Stressand Shearing Stress in Beams)、梁的挠度与转角(Deftection and Slope of Beams)、应力分析与强度理论(Analysis of Stresses and Theories of Strength)、组合载荷(Combined Loadings)、压杆稳定(Stability of Columns)、能量法(Energy Methods)、动载荷(Dynamic Loadings)和静不定结构(Statically Indeterminate Structures);附录部分包括截面几何性质(Geometrical Properties ofAreas)、型钢几何性质(Geometrical Properties of Rolled-steel Shapes)、常用截面的惯性矩与极惯性矩(Moment of Inertia and Polar Moment of Inertia of Commonly-Used Areas)和常用梁的挠度与转角(Deflections and Slopes of Commonly-Used Beams)。
本书可作为高等院校航空、航天、机械、土木、水利、建筑、船舶、汽车、材料和力学等专业本科教学的材料力学双语教材,也可供相关专业的高校教师、研究人员和技术人员参考。
本书可作为高等院校航空、航天、机械、土木、水利、建筑、船舶、汽车、材料和力学等专业本科教学的材料力学双语教材,也可供相关专业的高校教师、研究人员和技术人员参考。
目录
Preface
Chapter 1 Stresses and Strains
1.1 What Is Mechanics of Materials
1.2 Basic Assumptions of Materials
1.3 External Forces
1.4 Internal Forces
1.5 Stresses
1.6 Strains
1.7 Deformations of Members
Problems
Chapter 2 Mechanical Properties of Materials
2.1 Tensile or Compressive Test
2.2 Tension of Low-Carbon Steel
2.3 Ductile and Brittle Materials
2.4 Stress-Strain Curve of Ductile Materials Without Distinct Yield Point
2.5 Percent Elongation and Percent Reduction in Area
2.6 Hooke's Law
2.7 Mechanical Properties of Materials in Compression
Chapter 3 Axial Tension and Compression of Bars
3.1 Definition of Axial Tension and Compression
3.2 Axial Force
3.3 Normal Stress on Cross Section
3.4 Saint-Venant's Principle
3.5 Normal and Shearing Stresses on Oblique Section
3.6 Normal Strain
3.7 Deformation of Axially Loaded Bar
3.8 Statically Indeterminate Axially Loaded Bar
3.9 Design of Axially Loaded Bar
3.10 Stress Concentrations
Problems
Chapter 4 Torsion of Shafts
4.1 Definition of Torsion
4.2 Twisting Moment
4.3 Hooke's Law in Shear
4.4 Shearing Stress on Cross Section of Circular Shaft
4.5 Nomal and Shearing Stresses on Oblique Section of Circular Shaft
4.6 Angle of Twist
4.7 Statically Indeterminate Circular Shaft
4.8 Design of Circular Shaft
Problems
Chapter 5 Shearing Force and Bending Moment of Beams
5.1 Definition of Bending
5.2 Shearing—Force and Bending-Moment Diagrams
5.3 Relations Among Distributed Load,Shearing Force,and Bending Moment
5.4 Relations Among Concentrated Load,Shearing Force,and Bending Moment
Problems
Chapter 6 Normal Stress and Shearing Stress in Beams
6.1 Types of Bending
6.2 Norreal Stresses on Cross Section in Pure Bending
6.3 Normal and Shearing Stresses on Cross Section in Transverse-Force Bending
6.4 Design of Prismatic Beams in Bending
Problems
Chapter 7 Deflection and Slope of Beams-
7.1 Deformation of Beams
7.2 Method of Integration
7.3 Method of Superposition
7.4 Statically Indeterminate Beams
Problems
Chapter 8 Analysis of Stresses and Theories of Strength
8.1 State of Stress
8.2 Transformation of Plane Stress
8.3 Principal Stresses for Plane stress
8.4 Maximum Shearing Stress for Plane Stress
8.5 Stresses in Pressure Vessels
8.6 Generalized Hooke's Law
8.7 Theories of Strength Under Plane Stress
Problems
Chapter 9 Combined Loadings
9.1 Definition of Combined Loadings
9.2 Stress in Bar Subjected tO Eccentric Tension or Compression
9.3 Stress in 1-Section Beam Subj ected to Transverse Bending
9.4 Stress in Beam Subj ected to Bending and Axial Tension/Compression
9.5 Stress in Shaft Subjected tO Torsion and Bending
Problems
Chapter 10 Stability of Columns
10.1 Definition of Buckling
10.2 Critical Load of Long Slender Columns Under Centric Load with Pin Supports
10.3 Critical Load of Long Slender Columns Under Centric Load with Other Supports
10.4 Critical Stress of Long Slender Columns Under Centric Load
10.5 Critical Stress of Intermediate Length Columns Under Centric Load
10.6 Design of Columns Under Centric Load
Problems
Chapter 11 Energy Methods
11.1 External Work
11.2 Stain-Energy Density
11.3 Strain Energy
11.4 Principle of Work and Energy
11.5 Castigliano's Theorem
11.6 Unit Load Method
11.7 Applications of Enorgy Methods
Problems
Chapter 12 Dynamic Loadings
12.1 Definition of Impact Loadings
12.2 Vertical Impact
12.3 Horizontal Impact
Problems
Chapter 13 Statically Indeterminate Structures
13.1 Concept of Statically Indeterminate Structures
13.2 External and Internal Indeterminacy
13.3 Force Method for Analysis of Statically Indeterminate Structures
13.4 Force Method for Analysis of Symmetrical Indeterminate Structures
Problems
Appendix I Geometrical Properties of Ar
Chapter 1 Stresses and Strains
1.1 What Is Mechanics of Materials
1.2 Basic Assumptions of Materials
1.3 External Forces
1.4 Internal Forces
1.5 Stresses
1.6 Strains
1.7 Deformations of Members
Problems
Chapter 2 Mechanical Properties of Materials
2.1 Tensile or Compressive Test
2.2 Tension of Low-Carbon Steel
2.3 Ductile and Brittle Materials
2.4 Stress-Strain Curve of Ductile Materials Without Distinct Yield Point
2.5 Percent Elongation and Percent Reduction in Area
2.6 Hooke's Law
2.7 Mechanical Properties of Materials in Compression
Chapter 3 Axial Tension and Compression of Bars
3.1 Definition of Axial Tension and Compression
3.2 Axial Force
3.3 Normal Stress on Cross Section
3.4 Saint-Venant's Principle
3.5 Normal and Shearing Stresses on Oblique Section
3.6 Normal Strain
3.7 Deformation of Axially Loaded Bar
3.8 Statically Indeterminate Axially Loaded Bar
3.9 Design of Axially Loaded Bar
3.10 Stress Concentrations
Problems
Chapter 4 Torsion of Shafts
4.1 Definition of Torsion
4.2 Twisting Moment
4.3 Hooke's Law in Shear
4.4 Shearing Stress on Cross Section of Circular Shaft
4.5 Nomal and Shearing Stresses on Oblique Section of Circular Shaft
4.6 Angle of Twist
4.7 Statically Indeterminate Circular Shaft
4.8 Design of Circular Shaft
Problems
Chapter 5 Shearing Force and Bending Moment of Beams
5.1 Definition of Bending
5.2 Shearing—Force and Bending-Moment Diagrams
5.3 Relations Among Distributed Load,Shearing Force,and Bending Moment
5.4 Relations Among Concentrated Load,Shearing Force,and Bending Moment
Problems
Chapter 6 Normal Stress and Shearing Stress in Beams
6.1 Types of Bending
6.2 Norreal Stresses on Cross Section in Pure Bending
6.3 Normal and Shearing Stresses on Cross Section in Transverse-Force Bending
6.4 Design of Prismatic Beams in Bending
Problems
Chapter 7 Deflection and Slope of Beams-
7.1 Deformation of Beams
7.2 Method of Integration
7.3 Method of Superposition
7.4 Statically Indeterminate Beams
Problems
Chapter 8 Analysis of Stresses and Theories of Strength
8.1 State of Stress
8.2 Transformation of Plane Stress
8.3 Principal Stresses for Plane stress
8.4 Maximum Shearing Stress for Plane Stress
8.5 Stresses in Pressure Vessels
8.6 Generalized Hooke's Law
8.7 Theories of Strength Under Plane Stress
Problems
Chapter 9 Combined Loadings
9.1 Definition of Combined Loadings
9.2 Stress in Bar Subjected tO Eccentric Tension or Compression
9.3 Stress in 1-Section Beam Subj ected to Transverse Bending
9.4 Stress in Beam Subj ected to Bending and Axial Tension/Compression
9.5 Stress in Shaft Subjected tO Torsion and Bending
Problems
Chapter 10 Stability of Columns
10.1 Definition of Buckling
10.2 Critical Load of Long Slender Columns Under Centric Load with Pin Supports
10.3 Critical Load of Long Slender Columns Under Centric Load with Other Supports
10.4 Critical Stress of Long Slender Columns Under Centric Load
10.5 Critical Stress of Intermediate Length Columns Under Centric Load
10.6 Design of Columns Under Centric Load
Problems
Chapter 11 Energy Methods
11.1 External Work
11.2 Stain-Energy Density
11.3 Strain Energy
11.4 Principle of Work and Energy
11.5 Castigliano's Theorem
11.6 Unit Load Method
11.7 Applications of Enorgy Methods
Problems
Chapter 12 Dynamic Loadings
12.1 Definition of Impact Loadings
12.2 Vertical Impact
12.3 Horizontal Impact
Problems
Chapter 13 Statically Indeterminate Structures
13.1 Concept of Statically Indeterminate Structures
13.2 External and Internal Indeterminacy
13.3 Force Method for Analysis of Statically Indeterminate Structures
13.4 Force Method for Analysis of Symmetrical Indeterminate Structures
Problems
Appendix I Geometrical Properties of Ar
