Essentials of Mechanical Stress Analysis, 2nd Edition
- Length: 251 pages
- Edition: 2
- Language: English
- Publisher: CRC Press
- Publication Date: 2023-03-08
- ISBN-10: 1032317558
- ISBN-13: 9781032317557
- Sales Rank: #0 (See Top 100 Books)
Essentials of Mechanical Stress Analysis, updated for the second edition, covers stress analysis from an interdisciplinary perspective. Discussing techniques and theories essential to analysing structures, it covers both analytical and numerical approaches.
The second edition adds new topics and updates research to follow current advances in the field. New sections on material properties, composite materials and finite element analysis enable the reader to further establish the fundamental theory behind material behaviour, and the causes of stress and strain. Also covering beams, plates, columns and elastic instability, the book discusses fatigue, life cycle, energy methods and MathCAD sample code.
As a clear and comprehensive guide to stress and structural analysis, this book is relevant to students and scholars in the fields of mechanical, aerospace and civil engineering, as well as material science.
Cover Half Title Title Page Copyright Page Dedication Contents Preface Author 1. Basics of Engineering Materials 1.1 Introduction 1.2 The Fundamental Terms 1.3 The Material Properties 1.4 Material Selection References 2. Stress and Strain Relationship 2.1 Introduction 2.2 Stress 2.3 2-D Stresses on an Inclined Angle 2.4 Principal Stresses 2.5 Mohr's Circle 2.6 Strain 2.7 Plane Stress and Strain 2.8 Principal Strains 2.9 Stress Based on the Measured Strains 2.10 Stress State in Polar Coordinates 2.11 Stress Field around Circular Holes in Thin Plates 2.12 Stress Due to Thermal Expansion and Axial Pre-loading References 3. Stresses due to Various Loading Conditions 3.1 Introduction 3.2 Contact Stresses 3.3 Thin-Walled Spherical Pressure Vessels 3.4 Thin-Walled Cylindrical Pressure Vessels 3.5 Thick-Walled Cylinder 3.6 Stress on Hydraulic Actuators 3.7 Stress due to Various Combined Loadings 3.8 Stresses due to Rotational Loadings References 4. Failure Criteria 4.1 Introduction 4.2 Material Failure 4.2.1 Ductile Failure 4.2.2 Brittle Failure 4.3 Maximum-Shearing-Stress Criterion (Ductile Material) 4.4 Maximum-Distortion-Energy Criterion (Ductile Material) 4.5 Maximum-Normal-Stress Criterion (Brittle Material) 4.6 Coulomb-Mohr's Criterion (Brittle Material) 4.7 Factor of Safety Calculations References 5. Beam Analysis Theory 5.1 Introduction 5.2 Boundary Conditions and Loading 5.3 Shear and Moment Diagrams 5.4 Deflection of the Beams 5.5 Bending of the Beams 5.6 Shear of the Beams 5.7 Guide to Beam Design and Analysis 5.8 Torsion of the Beams 5.9 Curved Beam Theory References 6. Plate Analysis Theory 6.1 Introduction 6.2 Circular Plates Uniformly Loaded 6.3 Circular Plates Loaded at the Center 6.4 Uniformly Loaded Rectangular Plates References 7. Elastic Stability and Buckling 7.1 Introduction 7.2 Column Buckling Instability 7.3 Column Buckling under Combined Axial and Bending Loads 7.4 Multiple Column System Buckling 7.5 Buckling of Plates References 8. Energy Methods 8.1 Introduction 8.2 Strain Energy 8.3 Castigliano's Theory 8.4 Stress due to Impact by Potential Energy References 9. Fatigue Analysis 9.1 Introduction 9.2 Stress-Life S-N Curve 9.3 Fatigue Crack Growth Reference 10. Numerical and Finite Element Methods 10.1 Introduction 10.2 Stress on Truss Elements 10.3 Stress on Beam Members 10.4 Accurate Finite Element Analysis of Plates 10.5 Finite Element Analysis Results Correlations 10.6 Determination of Fastener Stiffness for FEA References 11. Composite Analysis Theory 11.1 Introduction 11.2 Orthotropic Lamina 11.3 Orthotropic Layers Oriented at an Arbitrary Angle 11.4 Analysis of Laminate 11.5 Effective Modulus of the Laminate References 12. Fasteners and Joint Connections 12.1 Introduction 12.2 Fastener-Connection Failure 12.3 Welded-Connection Failure 12.4 Eccentric Loading of Fasteners 12.5 Inter-Coupling Loading of Fasteners and Inserts 12.6 Fastener Properties References 13. MathCAD Stress Analysis Simulations 13.1 Introduction 13.2 Section Property Calculations 13.3 Stress Transformation and Principal Stresses 13.4 Hooke's Law (Stress and Strain Conversations) 13.5 Contact Stresses 13.6 Pressure Vessels 13.7 Shear and Moment Diagrams 13.8 Curved Beam Theory 13.9 Deflection of Circular Plates 13.10 Deflection of Rectangular Plates 13.11 Column Buckling 13.12 Plate Buckling 13.13 Truss System Analysis 13.14 Composite Laminate Lay-up Analysis 13.15 Eccentric Loading of the Fasteners References Index
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