Strength of Materials: Mechanics of Solids by Arthur Morley

A Comprehensive Guide to Understanding the Behavior of Materials under Stress

Arthur Morley's "Strength of Materials: Mechanics of Solids" is a comprehensive and authoritative treatise on the mechanical behavior of materials under various loading conditions. This classic textbook provides a thorough understanding of the fundamental principles and theories that govern the strength and deformation of engineering materials, making it an essential resource for students, engineers, and researchers in the field of mechanics of solids.

Key Features:

• Comprehensive Coverage: The book covers a wide range of topics, including stress and strain analysis, material properties, failure theories, beam bending and deflection, torsion, buckling, and more.

• Clear and Concise Explanations: Morley presents complex concepts in a clear and concise manner, making the book accessible to readers of all levels.

• Numerous Worked Examples: Each chapter is accompanied by numerous worked examples that illustrate the application of the concepts and theories discussed.

• End-of-Chapter Problems: Each chapter concludes with a set of end-of-chapter problems that allow readers to test their understanding of the material.

• Historical Context: Morley provides historical context for the development of the field of mechanics of solids, giving readers a deeper appreciation for the subject.

Chapter Summaries:

Chapter 1: Introduction

• Provides an overview of the field of mechanics of solids and its importance in engineering design.

Chapter 2: Stress and Strain

• Introduces the concepts of stress and strain and explains how they are related to the deformation of materials.

Chapter 3: Material Properties

• Discusses the various material properties that influence the mechanical behavior of materials, such as elasticity, plasticity, and strength.

Chapter 4: Failure Theories

• Presents various failure theories that predict the failure of materials under different loading conditions.

Chapter 5: Beam Bending and Deflection

• Analyzes the bending of beams and calculates the resulting deflections.

Chapter 6: Torsion

• Examines the twisting of shafts and determines the resulting stresses and deformations.

Chapter 7: Buckling

• Investigates the buckling of columns and explains the factors that affect their stability.

Chapter 8: Energy Methods

• Introduces energy methods for analyzing the deformation of structures.

Chapter 9: Plasticity

• Discusses the plastic behavior of materials and its implications for engineering design.

Chapter 10: Creep and Fatigue

• Examines the time-dependent behavior of materials under sustained loads and cyclic loading.

Why You Should Buy This Book:

"Strength of Materials: Mechanics of Solids" by Arthur Morley is a must-have resource for anyone interested in understanding the mechanical behavior of materials. Its comprehensive coverage, clear explanations, and wealth of examples make it an invaluable tool for students, engineers, and researchers alike. Whether you are new to the field or an experienced professional, this book will provide you with a solid foundation in the mechanics of solids and help you solve real-world engineering problems with confidence.

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