Mechanics of Solids and Fracture 4th Edition by Ho Sung Kim

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Author: Ho Sung Kim

The level of knowledge content given in this book is designed for the students who have completed elementary mechanics of solids for stresses and strains associated with various geometries including simple trusses, beams, shafts, columns, etc. At the successful completion of understanding the content, the students will be able to reach a stage where they can do self-directed learning at any further advanced level in the area of mechanics of solids. The emphasis is given on the fundamental concepts for students to quickly follow through for an advanced level if required in the future. Fracture mechanics is included in this book with necessary preliminary steps for those who might have had difficulties with the subject in the past.

Mechanics of Solids and Fracture 4th Table of contents:

1.Stress and Strain

Stress at a Point

Principal Stress and Related Components

Stresses on Oblique Planes

3D Mohr’s Circle Representation

Strain at a Point

Linear Elastic Stress-Strain Relations

The Hooke’s Law

Calculating Stresses from Elastic Strains

Plane Stress and Plane Strain

Strain Energy

Generalized Hooke’s Law

Orientation-Dependent Elastic Properties

2. Thin Circular Plates

Stress and Strain Analysis

Bending Moment

Slope and Deflection Without Boundary Conditions

Circular Plate Under Combined Distributed and Central Load

Clamped Circular Plate Under Pressure

Clamped Circular Plate Under Central Load

Freely Supported Circular Plate Under Pressure

Freely Supported Circular Plate Under Central Load

Freely Supported Plate with Load Around a Circle

Annular Ring with Load Around a Circle

3. Theory of Elasticity

Fundamentals

Equilibrium and Compatibility Equations

Airy’s Stress Function

Applications in Photoelastic Stress Analysis

Stress Distribution in Polar Coordinates

4. Fatigue and Fracture Mechanics

S-N Fatigue

Types of Uniaxial Loading

S-N Curve Models

Fatigue Damage Concepts

Damage Functions and Validation

Fatigue Life Predictions and Mean Stress Effects

Linear Elastic Stress Field in Cracked Bodies

Complex Stress Function

Stress Around a Crack Tip

Stress Intensity Factor

Crack Tip Plastic Deformation

Fracture Mechanics

Energy Release and Crack Growth

Griffith’s Energy Approach

R-Curve and Stability

Fracture Toughness Testing

Fatigue Crack Growth

Temperature and Frequency Effects

Overload Retardation and Crack Closure

Short Crack Behavior in Near-Threshold Fatigue

5. Additional Topics

Analytical and Experimental Approaches

Non-Linear Elastic Behavior

Geometric Stability Factors

Impact Fracture Toughness

Variable Amplitude Loading

6. References and Index

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Ho Sung Kim,Mechanics,Solids,Fracture