Mechanical Behavior of Materials 4th Edition by Norman Dowling- Ebook PDF Instant Download/Delivery: 0131395068 ,978-0131395060
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ISBN 10: 0131395068
ISBN 13:978-0131395060
Author:Norman Dowling
Mechanical Behavior of Materials, 4/e introduces the spectrum of mechanical behavior of materials, emphasizing practical engineering methods for testing structural materials to obtain their properties, and predicting their strength and life when used for machines, vehicles, and structures. With its logical treatment and ready-to-use format, it is ideal for practicing engineers and upper-level undergraduates who have completed elementary mechanics of materials courses.
Mechanical Behavior of Materials 4th Table of contents:
1 Introduction to Mechanics of Materials 1
1.1 What Is Mechanics of Materials?, 1
1.2 The Fundamental Equations of Deformable-Body Mechanics, 5
1.3 Problem-Solving Procedures, 7
1.4 Review of Static Equilibrium; Equilibrium of Deformable Bodies, 9
Chapter 1 Review, 19
2 Stress and Strain; Introduction to Design 20
2.1 Introduction, 20
2.2 Normal Stress, 21
2.3 Extensional Strain; Thermal Strain, 29
2.4 Stress-Strain Diagrams; Mechanical Properties of Materials, 35
2.5 Elasticity and Plasticity; Temperature Effects, 43
2.6 Linear Elasticity; Hooke’s Law and Poisson’s Ratio, 46
2.7 Shear Stress and Shear Strain; Shear Modulus, 49
2.8 Introduction to Design—Axial Loads and Direct Shear, 55
2.9 Stresses on an Inclined Plane in an Axially Loaded Member, 62
2.10 Saint-Venant’s Principle, 64
2.11 Hooke’s Law for Plane Stress; the Relationship Between E and G, 66
2.12 General Definitions of Stress and Strain, 69
*2.13 Cartesian Components of Stress; Generalized Hooke’s Law for Isotropic Materials, 79
*2.14 Mechanical Properties of Composite Materials, 84
Chapter 2 Review, 86
3 Axial Deformation 91
3.1 Introduction, 91
3.2 Basic Theory of Axial Deformation, 91
3.3 Examples of Nonuniform Axial Deformation, 99
3.4 Statically Determinate Structures, 109
3.5 Statically Indeterminate Structures, 116
3.6 Thermal Effects on Axial Deformation, 125
3.7 Geometric “Misfits”, 136
3.8 Displacement-Method Solution of Axial-Deformation Problems, 141
*3.9 Force-Method Solution of Axial-Deformation Problems, 153
*3.10 Introduction to the Analysis of Planar Trusses, 162
*3.11 Inelastic Axial Deformation, 170
Chapter 3 Review, 183
4 Torsion 186
4.1 Introduction, 186
4.2 Torsional Deformation of Circular Bars, 187
4.3 Torsion of Linearly Elastic Circular Bars, 190
4.4 Stress Distribution in Circular Torsion Bars; Torsion Testing, 198
4.5 Statically Determinate Assemblages of Uniform Torsion Members, 202
4.6 Statically Indeterminate Assemblages of Uniform Torsion Members, 207
*4.7 Displacement-Method Solution of Torsion Problems, 215
4.8 Power-Transmission Shafts, 221
*4.9 Thin-Wall Torsion Members, 224
*4.10 Torsion of Noncircular Prismatic Bars, 229
*4.11 Inelastic Torsion of Circular Rods, 233
Chapter 4 Review, 239
5 Equilibrium of Beams 241
5.1 Introduction, 241
5.2 Equilibrium of Beams Using Finite Free-Body Diagrams, 246
5.3 Equilibrium Relationships Among Loads, Shear Force, and Bending Moment, 250
5.4 Shear-Force and Bending-Moment Diagrams: Equilibrium Method, 253
5.5 Shear-Force and Bending-Moment Diagrams: Graphical Method, 258
*5.6 Discontinuity Functions to Represent Loads, Shear, and Moment, 265
Chapter 5 Review, 272
6 Stresses in Beams 275
6.1 Introduction, 275
6.2 Strain-Displacement Analysis, 278
6.3 Flexural Stress in Linearly Elastic Beams, 284
6.4 Design of Beams for Strength, 293
6.5 Flexural Stress in Nonhomogeneous Beams, 299
*6.6 Unsymmetric Bending, 306
*6.7 Inelastic Bending of Beams, 316
6.8 Shear Stress and Shear Flow in Beams, 326
6.9 Limitations on the Shear-Stress Formula, 332
6.10 Shear Stress in Thin-Wall Beams, 335
6.11 Shear in Built-up Beams, 345
*6.12 Shear Center, 349
Chapter 6 Review, 356
7 Deflection of Beams 359
7.1 Introduction, 359
7.2 Differential Equations of the Deflection Curve, 360
7.3 Slope and Deflection by Integration—Statically Determinate Beams, 366
7.4 Slope and Deflection by Integration—Statically Indeterminate Beams, 379
*7.5 Use of Discontinuity Functions to Determine Beam Deflections, 384
7.6 Slope and Deflection of Beams: Superposition Method, 391
*7.7 Slope and Deflection of Beams: Displacement Method, 409
Chapter 7 Review, 416
8 Transformation of Stress And Strain; Mohr’s Circle 418
8.1 Introduction, 418
8.2 Plane Stress, 419
8.3 Stress Transformation for Plane Stress, 421
8.4 Principal Stresses and Maximum Shear Stress, 428
8.5 Mohr’s Circle for Plane Stress, 434
8.6 Triaxial Stress; Absolute Maximum Shear Stress, 441
8.7 Plane Strain, 448
8.8 Transformation of Strains in a Plane, 449
8.9 Mohr’s Circle for Strain, 453
8.10 Measurement of Strain; Strain Rosettes, 459
*8.11 Analysis of Three-Dimensional Strain, 464
Chapter 8 Review, 466
9 Pressure Vessels; Stresses Due to Combined Loading 469
9.1 Introduction, 469
9.2 Thin-Wall Pressure Vessels, 470
9.3 Stress Distribution in Beams, 476
9.4 Stresses Due to Combined Loads, 481
Chapter 9 Review, 490
10 Buckling Of Columns 492
10.1 Introduction, 492
10.2 The Ideal Pin-Ended Column; Euler Buckling Load, 495
10.3 The Effect of End Conditions on Column Buckling, 501
*10.4 Eccentric Loading; the Secant Formula, 508
*10.5 Imperfections in Columns, 514
*10.6 Inelastic Buckling of Ideal Columns, 515
10.7 Design of Centrally Loaded Columns, 519
Chapter 10 Review, 526
11 Energy Methods 528
11.1 Introduction, 528
11.2 Work and Strain Energy, 529
11.3 Elastic Strain Energy for Various Types of Loading, 536
11.4 Work-Energy Principle for Calculating Deflections, 542
11.5 Castigliano’s Second Theorem; the Unit-Load Method, 547
*11.6 Virtual Work, 558
*11.7 Strain-Energy Methods, 562
*11.8 Complementary-Energy Methods, 567
*11.9 Dynamic Loading; Impact, 577
Chapter 11 Review, 582
12 Special Topics Related to Design 584
12.1 Introduction, 584
12.2 Stress Concentrations, 584
*12.3 Failure Theories, 591
*12.4 Fatigue and Fracture, 599
Chapter 12 Review, 604
PROBLEMS P-1
A Numerical Accuracy; Approximations A-1
A.1 Numerical Accuracy; Significant Digits, A-1
A.2 Approximations, A-2
B Systems of Units A-3
B.1 Introduction, A-3
B.2 SI Units, A-3
B.3 U.S. Customary Units; Conversion of Units, A-5
B.4 Useful Physical Properties, A-6
C Geometric Properties of Plane Areas A-7
C.1 First Moments of Area; Centroid, A-7
C.2 Moments of Inertia of an Area, A-10
C.3 Product of Inertia of an Area, A-14
C.4 Area Moments of Inertia about Inclined Axes; Principal Moments of Inertia, A-16
C.5 Geometric Properties of Plane Areas, A-22
D Section Properties of Selected Structural Shapes A-24
E Deflections and Slopes of Beams; Fixed-End Actions A-35
F Mechanical Properties of Selected Engineering Materials A-40
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