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Informationen zum Autor William F. Riley is the author of Mechanics of Materials, 6th Edition, published by Wiley. Leroy D. Sturges is the author of Mechanics of Materials, 6th Edition, published by Wiley. Klappentext A CLEAR AND THOROUGH GUIDE, WITH A STRONG PROBLEM-SOLVING METHODOLOGY In this sixth edition of Mechanics of Materials, Riley, Sturges, and Morris continue to provide a clear and thorough treatment of stress, strain, and stress-strain relationships, as well as axial loading, torsion, flexure, and buckling. Throughout the text, they emphasize fundamental principles, with numerous applications to demonstrate and develop logical, orderly methods of analysis. The authors equip students with an effective problem-solving methodology. They encourage students to draw free body diagrams whenever they write an equation of equilibrium, reduce problems to a series of simpler component problems, and present results in a clear manner. Now revised, this sixth edition features many new examples and homework problems, a consistent sign convention for internal forces, expanded and improved discussion of the stress element, and new sections on combined loading. NEW MECMOVIES PROMOTE VISUALIZATION Winner of the Premier Award for Excellence in Engineering Education Software, MecMovies, by Tim Philpott of University of Missouri, is a series of interactive tutorials, quizzes, problems, and games to support lectures and self-study. Icons in the margins of the text direct readers to appropriate sections of MecMovies. You can access MecMovies through the book's companion website. www.wiley.com/college/riley Zusammenfassung This leading book in the field focuses on what materials specifications and design are most effective based on function and actual load-carrying capacity. Written in an accessible style, it emphasizes the basics, such as design, equilibrium, material behavior and geometry of deformation in simple structures or machines. Inhaltsverzeichnis Chapter 1 Introduction and Review of Statics 1 1-1 Introduction 1 1-2 Classification of Forces 2 1-3 Equilibrium of a Rigid Body 4 1-4 Equilibrium of a Deformable Body 30 1-5 Internal Forces 34 Summary 44 Chapter 2 Analysis of Stress: Concepts and Definitions 48 2-1 Introduction 48 2-2 Normal Stress under Axial Loading 48 2-3 Shearing Stress in Connections 49 2-4 Bearing Stress 51 2-5 Units of Stress 51 2-6 Stresses on an Inclined Plane in an Axially Loaded Member 65 2-7 Stress at a general point in an Arbitrarily Loaded Member 72 2-8 Two-dimensional or Plane Stress 74 2-9 The Stress Transformation Equations for Plane Stress 75 2-10 Principal Stresses and Maximum Shearing Stress-Plane Stress 85 2-11 Mohr's Circle for Plane Stress 98 2-12 General State of Stress at a Point 108 Summary 117 Chapter 3 Analysis of Strain: Concepts and Definitions 121 3-1 Introduction 121 3-2 Displacement, Deformation, and Strain 121 3-3 The State of Strain at a point 129 3-4 The Strain Transformation Equations for Plane Strain 130 3-5 Principal Strains and Maximum Shear Strain 135 3-6 Mohr's Circle for Plane Strain 140 3-7 Strain Measurement and Rosette Analysis 142 Summary 148 Chapter 4 Material Properties and Stress-Strain Relationships 153 4-1 Introduction 153 4-2 Stress-Strain diagrams 153 4-3 Generalized Hooke's law 164 4-4 Thermal Strain 176 4-5 Stress-Strain Equations for Orthotropic Materials 180 Summary 184 Chapter 5 Axial Loading Applications and Pressure Vessels 189 5-1 Introduction 189 5-2 Deformation of Axially Loaded Members 189 5-3 Deformations in a System of Axially Loaded Bars 201 5-4 Statically Ind...
