Eine systematische, moderne Behandlung der Festkörpermechanik, motiviert durch alltägliche technische Anwendungen! Der Autor nimmt auch zu Themen Stellung, die in Einführungslehrbüchern der Festkörpermechanik oft ausgespart werden, z. B.l zur Phänomenologie des Verhaltens von Werkstoffen. Alle theoretischen Konzepte wurden anhand gut verständlicher Beispiele für die Praxis aufbereitet. Mit zahlreichen Rechenaufgaben, die für das MATLAB-Paket konzipiert sind.
RAYMOND PARNES is a Professor in the Department of Solid Mechanics, Materials and Structures in Tel-Aviv University. A graduate of Columbia University, he has over 25 years experience of teaching the subject in the United States, Europe and Israel and has published extensively in a variety of subjects in Solid Mechanics.
Preface. PART A: BASIC CONCEPTS. 1 Introductory Concepts of Solid Mechanics. 2 Internal Forces and Stress. 3 Deformation and Strain. 4 Behaviour of Materials: Constitutive Equations. 5 Summary of Basic Results and Further Idealisations: Solutions using the "Mechanics-of-Materials" Approach. PART B: APPLICATIONS TO SIMPLE ELEMENTS. 6 Axial Loadings. 7 Torsion of Circular Cylindrical Rods: Coulomb Torsion. 8 Symmetric Bending of Beams - Basic Relations and Stresses. 9 Symmetric Bending of Beams: Deflections, Fundamental Solutions and Superposition. 10 Thin-Wall Pressure Vessels: Thin Shells Under Pressure. 11 Stability and Instability of Rods under Axial Compression: Beam-Columns and Tie-Rods. 12 Torsion of Elastic Members of Arbitrary Cross-Section: de Saint Venant Torsion. 13 General Bending Theory of Beams. PART C: ENERGY METHODS AND VIRTUAL WORK. 14 Basic Energy Theorems, Principles of Virtual Work and their Application to Structural Mechanics. 15 Stability of Mechanical Systems by Energy Considerations: Approximate Methods. Appendix A: Properties of Areas. Appendix B: Some Mathematical Relations. Appendix C: The Membrane Equation. Appendix D: Material Properties. Appendix E: Table of Structural Properties. Appendix F: Reactions, Deflections and Slopes of Selected Beams. Answers to Selected Problems. Index.
Show moreEine systematische, moderne Behandlung der Festkörpermechanik, motiviert durch alltägliche technische Anwendungen! Der Autor nimmt auch zu Themen Stellung, die in Einführungslehrbüchern der Festkörpermechanik oft ausgespart werden, z. B.l zur Phänomenologie des Verhaltens von Werkstoffen. Alle theoretischen Konzepte wurden anhand gut verständlicher Beispiele für die Praxis aufbereitet. Mit zahlreichen Rechenaufgaben, die für das MATLAB-Paket konzipiert sind.
RAYMOND PARNES is a Professor in the Department of Solid Mechanics, Materials and Structures in Tel-Aviv University. A graduate of Columbia University, he has over 25 years experience of teaching the subject in the United States, Europe and Israel and has published extensively in a variety of subjects in Solid Mechanics.
Preface. PART A: BASIC CONCEPTS. 1 Introductory Concepts of Solid Mechanics. 2 Internal Forces and Stress. 3 Deformation and Strain. 4 Behaviour of Materials: Constitutive Equations. 5 Summary of Basic Results and Further Idealisations: Solutions using the "Mechanics-of-Materials" Approach. PART B: APPLICATIONS TO SIMPLE ELEMENTS. 6 Axial Loadings. 7 Torsion of Circular Cylindrical Rods: Coulomb Torsion. 8 Symmetric Bending of Beams - Basic Relations and Stresses. 9 Symmetric Bending of Beams: Deflections, Fundamental Solutions and Superposition. 10 Thin-Wall Pressure Vessels: Thin Shells Under Pressure. 11 Stability and Instability of Rods under Axial Compression: Beam-Columns and Tie-Rods. 12 Torsion of Elastic Members of Arbitrary Cross-Section: de Saint Venant Torsion. 13 General Bending Theory of Beams. PART C: ENERGY METHODS AND VIRTUAL WORK. 14 Basic Energy Theorems, Principles of Virtual Work and their Application to Structural Mechanics. 15 Stability of Mechanical Systems by Energy Considerations: Approximate Methods. Appendix A: Properties of Areas. Appendix B: Some Mathematical Relations. Appendix C: The Membrane Equation. Appendix D: Material Properties. Appendix E: Table of Structural Properties. Appendix F: Reactions, Deflections and Slopes of Selected Beams. Answers to Selected Problems. Index.
Show morePreface.
PART A: BASIC CONCEPTS.
1 Introductory Concepts of Solid Mechanics.
2 Internal Forces and Stress.
3 Deformation and Strain.
4 Behaviour of Materials: Constitutive Equations.
5 Summary of Basic Results and Further Idealisations: Solutions
using the "Mechanics-of-Materials" Approach.
PART B: APPLICATIONS TO SIMPLE ELEMENTS.
6 Axial Loadings.
7 Torsion of Circular Cylindrical Rods: Coulomb Torsion.
8 Symmetric Bending of Beams -
Basic Relations and Stresses.
9 Symmetric Bending of Beams: Deflections, Fundamental Solutions
and Superposition.
10 Thin-Wall Pressure Vessels: Thin Shells Under Pressure.
11 Stability and Instability of Rods under Axial Compression:
Beam-Columns and Tie-Rods.
12 Torsion of Elastic Members of Arbitrary Cross-Section: de Saint
Venant Torsion.
13 General Bending Theory of Beams.
PART C: ENERGY METHODS AND VIRTUAL WORK.
14 Basic Energy Theorems, Principles of Virtual Work and their
Application to Structural Mechanics.
15 Stability of Mechanical Systems by Energy Considerations:
Approximate Methods.
Appendix A: Properties of Areas.
Appendix B: Some Mathematical Relations.
Appendix C: The Membrane Equation.
Appendix D: Material Properties.
Appendix E: Table of Structural Properties.
Appendix F: Reactions, Deflections and Slopes of Selected
Beams.
Answers to Selected Problems.
Index.
RAYMOND PARNES is a Professor in the Department of Solid Mechanics, Materials and Structures in Tel-Aviv University. A graduate of Columbia University, he has over 25 years experience of teaching the subject in the United States, Europe and Israel and has published extensively in a variety of subjects in Solid Mechanics.
"...The book is clearly laid out, well illustrated and the quality of reproduction is excellent...highly recommended..." (Materials World, September 2002)
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