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结构力学  英文
结构力学  英文

结构力学 英文PDF电子书下载

数理化

  • 电子书积分:12 积分如何计算积分?
  • 作 者:何丽艳主编
  • 出 版 社:黑龙江大学出版社有限责任公司
  • 出版年份:2010
  • ISBN:9787811293265
  • 页数:326 页
图书介绍:本书是在英文原版《结构力学》基础上,参考了多部国内优秀教材并按照学生熟知的框架体系编写而成。全书共10章,基本涵盖了本科结构力学的经典内容(不含结构动力学内容),书中附有大量详实的配图、习题,便于学生准确理解概念,真正做到了理论联系实际。本书作为结构力学双语教学的教材或课外辅导教材,供本科生使用。
《结构力学 英文》目录

Chapter 1 Statics of Structures 1

1.1 Introduetion 1

1.2 Forces 2

1.3 Supports 9

1.4 Idealizing Structures 13

1.5 Free-Body Diagrams 14

1.6 Equations of Static Equilibrium 16

1.7 Equations of Condition 21

1.8 Influence of Reactions on Stability and Determinacy of Structures 24

1.9 Classifying Structures 32

1.10 Comparison Between Determinate and Indeterminate Structures 36

Summary 39

Chapter 2 Trusses 40

2.1 Introduction 40

2.2 Types of Trusses 43

2.3 Analysis of Trusses 44

2.4 Method of Joints 45

2.5 Zero Bars 49

2.6 Method of Sections 51

2.7 Determinacy and Stability 57

Summary 63

Chapter 3 Beams and Frames 65

3.1 Introduction 65

3.2 Scope of Chapter 70

3.3 Equations for Shear and Moment 70

3.4 Shear and Moment Curves 78

3.5 Principle of Superposition 93

3.6 Sketching the Deflected Shape of a Beam or Frame 97

3.7 Degree of Indeterminacy 102

Summary 105

Chapter 4 Cables 107

4.1 Introduction 107

4.2 Characteristics of Cables 108

4.3 Variation of Cable Force 109

4.4 Analysis of a Cable Supporting Gravity(Vertical)Loads 109

4.5 General Cable Theorem 111

4.6 Establishing the Funicular Shape of an Arch 113

Summary 116

Chapter 5 Arches 118

5.1 Introduction 118

5.2 Types of Arches 118

5.3 Three-Hinged Arches 120

5.4 Funicular Shape for an Arch That Supports a Uniformly Distributed Load 123

Summary 127

Chapter 6 Live Load Forces:Influence Lines6.1 Introduction 128

6.2 Influence Lines 128

6.3 Construction of an Influence Line 129

6.4 The Müller-Breslau Principle 137

6.5 Use of Influence Lines 141

6.6 Influence Lines for Girders Supporting Floor Systems 144

6.7 Influence Lines for Trusses 150

6.8 Live Loads for Highway and Railroad Bridges 156

6.9 Increase-Decrease Method 159

6.10 Absolute Maximum Live Load Moment 163

6.11 Maximum Shear 167

Summary 168

Chapter 7 Deflections of Beams and Frames7.1 Introduction 169

7.2 Double Integration Method 169

7.3 Moment-Area Method 176

7.4 Elastic Load Method 194

7.5 Conjugate Beam Method 199

7.6 Design Aids for Beams 208

Summary 210

Chapter 8 Work-Energy Methods 212

8.1 Introduction 212

8.2 Work 214

8.3 Strain Energy 216

8.4 Deflections by the Work-Energy Method(Real Work) 218

8.5 Virtual Work:Trusses 219

8.6 Virtual Work:Beams and Frames 235

8.7 Finite Summation 246

8.8 Bernoulli's Principle of Virtual Displacements 248

8.9 Maxwell-Betti Law of Reciprocal Deflections 251

Summary 255

Chapter 9 The Flexibility Method 257

9.1 Introduction 257

9.2 Concept of a Redundant 258

9.3 Fundamentals of the Flexibility Method 259

9.4 Alternative View of the Flexibility Method(Closing a Gap) 263

9.5 Analysis Using Internal Releases 272

9.6 Support Settlements Temperature Change and Fabrication Errors 279

9.7 Analysis of Structures with Several Degrees of Indeterminacy 283

9.8 Beam on Elastic Supports 291

Summary 293

Chapter 10 The Slope-Deflection Method10.1 Introduction 295

10.2 Illustration of the Slope-Deflection Method 296

10.3 Derivation of the Slope-Deflection Equation 297

10.4 Analysis of Structures by the Slope-Deflection Method 303

Summary 304

10.5 Analysis of Structures That Are Free to Sidesway 315

10.6 Kinematic Indeterminacy 324

Summary 325

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