PART 1. FUNDAMENTALS.Chapter 1. Mechanical Engineering Design in Broad Perspective.1.1 An Overview of the Subject.1.2 Safety Considerations.
1.3 Ecological Considerations.1.4 Societal Considerations.1.5 Overall Design Considerations.1.6 Systems of Units.
1.7 Methodology for Solving Machine Component Problems.1.8 Work and Energy.1.9 Power.1.10 Conservation of Energy.
Chapter 2. Load Analysis.2.1 Introduction.2.2 Equilibrium Equations and Free-Body Diagrams.2.3 Beam Loading.
2.4 Locating Critical Sections-Force Flow Concept.2.5 Load Division Between Redundant Supports.2.6 Force Flow Concept Applied to Redundant Ductile Structures.Chapter 3. Materials.
3.1 Introduction.3.2 The Static Tensile Test-"Engineering" Stress-Strain Relationships.3.3 Implications of the "Engineering" Stress-Strain Curve.3.4 The Static Tensile Test-"True" Stress-Strain Relationships.
3.5 Energy-Absorbing Capacity.3.6 Estimating Strength Properties from Penetration Hardness Tests.3.7 Use of "Handbook" Data for Material Strength Properties.3.8 Machinability.
3.9 Cast Iron.3.10 Steel.3.11 Nonferrous Alloys.3.12 Plastics.
3.13 Material Selection Charts.3.14 Engineering Material Selection Process.Chapter 4. Static Body Stresses.4.1 Introduction.
4.2 Axial Loading.4.3 Direct Shear Loading.4.4 Torsional Loading.4.5 Pure Bending Loading, Straight Beams.
4.6 Pure Bending Loading, Curved Beams.4.7 Transverse Shear Loading in Beams.4.8 Induced Stresses, Mohr Circle Representation.4.9 Combined Stresses-Mohr Circle Representation.
4.10 Stress Equations Related to Mohr's Circle.4.11 Three-Dimensional Stresses.4.12 Stress Concentration Factor,Kt.4.13 Importance of Stress Concentration.
4.14 Residual Stresses Caused by Yielding-Axial Loading.4.15 Residual Stresses Caused by Yielding-Bending and Torsional Loading.4.16 Thermal Stresses.4.17 Importance of Residual Stresses.
Chapter 5. Elastic Strain, Deflection, and Stability.5.1 Introduction.5.2 Strain Definition, Measurement, and Mohr Circle Representation.5.3 Analysis of Strain-Equiangular Rosettes.
5.4 Analysis of Strain-Rectangular Rosettes.5.5 Elastic Stress-Strain Relationships and Three-Dimensional Mohr Circles.5.6 Deflection and Spring Rate-Simple Cases.5.7 Beam Deflection.
5.8 Determining Elastic Deflections by Castigliano's Method.5.9 Redundant Reactions by Castigliano's Method.5.10 Euler Column Buckling-Elastic Instability.5.11 Effective Column Length for Various End Conditions.
5.12 Column Design Equations-J. B. Johnson Parabola.5.13 Eccentric Column Loading-the Secant Formula.5.14 Equivalent Column Stresses.
5.15 Other Types of Buckling.5.16 Finite Element Analysis.Chapter 6. Failure Theories, Safety Factors, and Reliability.6.1 Introduction.
6.2 Types of Failure.6.3 Fracture Mechanics-Basic Concepts.6.4 Fracture Mechanics-Applications.6.5 The "Theory" of Static Failure Theories.
6.6 Maximum-Normal-Stress Theory.6.7 Maximum-Shear-St.