Lesson 1 Stress and Strain 1
Lesson 2 Tensile Stress-strain Behavior 6
Lesson 3 Torsion of A Circular Bar 10
Lesson 4 Deflections of Beams 14
Lesson 5 Gravitation in the Universe 19
Lesson 6 Equilibrium of Rigid Bodies 24
Lesson 7 Newton s Laws of Motion 29
Lesson 8 The Planar Motion of A Rigid Body 33
Lesson 9 Theorems of Particle Dynamics 39
Lesson 10 Vibrations of A Single Particle 44
Lesson 11 Stress Equilibrium and Compatibility 49
Lesson 12 Elastic Constitutive Relations 54
Lesson 13 Stress Concentrations 60
Lesson 14 Buckling of Columns 66
Lesson 15 What Are Dynamic Problems? 71
Lesson 16 General Description of Waves 75
Lesson 17 Potential Energy Method 80
Lesson 18 Principle of Virtual Work 85
Lesson 19 Introduction to Computer Hardware 90
Lesson 20 Introduction to Computer Software 95
Lesson 21 Metallic Materials 99
Lesson 22 Nonmetallic Materials 104
Lesson 23 Composite Materials 110
Lesson 24 Behavior of Composite Materials 115
Lesson 25 Basic Deformations of Materials 120
Lesson 26 Failure Modes of Materials 124
Lesson 27 Plastic Behavior of A Tensile Bar 128
Lesson 28 Yield Criteria 134
Lesson 29 Plastic Flow Rule 139
Lesson 30 Plastic Limit Analysis 145
Lesson 31 Mechanisms of Elastic Deformation 150
Lesson 32 Mechanisms of Plastic Deformation 155
Lesson 33 Finite Element Method 160
Lesson 34 Programming A Problem Solution 165
Lesson 35 Experimental Techniques 171
Lesson 36 Photoelasticity 177
Lesson 37 Fracture of Britte Materials 182
Lesson 38 Linear Elastic Fracture Mechanics 187
Lesson 39 Ductile Fracture 192
Lesson 40 Fatigue in Metals 196
Lesson 41 Time-Dependent Deformation in Solids 202
Lesson 42 Viscous Behavior of Polymers 207
Lesson 43 Creep in Metals 212
Lesson 44 Friction and Wear of Materials 217
Lesson 45 Basic Equations of Fluid Mechanics 222
Lesson 46 Civil Engineering 227
Lesson 47 The Airplanes 232
Lesson 48 Communications Satellites 237
Lesson 49 Travel into Outer Space 241
Lesson 50 Courses of Mechanics in UMIST 245
参考文献 252