| Introduction | |
Presents a new approach to the study of conventional strength of materials by integrating the basic concepts of elasticity and plasticity with the traditional methods of strength of materials.Studentstherefore get a better insight into the usual structural phenomena like bending, torsion, bucking, etc. and strain energy, creep, fatigue etc. thus, even while using approximate methods, the reader keeps in mind the effect of these approximations and gives them due weightage at the time of design. The text is divided into two parts.The first deals with materials properties and theories of stress and strain, and the second with common topics of structural mechanics. A thorough coverage of elasticity and plasticity and due emphasis on design aspects (for beams, columns, shafts, springs, etc) are the distinct features of this book. Emphasis has been laid on fundamentals and basic structural phenomena incorporating a practical approach to analysis and design problems. A large number of solved and unsolved examples on various aspects of the problems discussed have been added to supplement the text effectively. | |
| Key features | |
| About the author | |
S.M.A. Kazimi S M A KAZIMI obtained his B Sc (Engg.) Hons degrees in civil Engineering from Aligarh muslim University. Aligarh in 1959 and Ph D(Structural Engineering) degree from University of Southampton, UK IN 1964. Dr. KAzimi is presently professor of soslid Mechanics in the Applied Mechanics department at the Indian Insitute of Technology, Delhi he had earlier taught in the Civil engineering departments of Aligarh Muslim University, Aligarh, Regional Engineering college,Srinagar, and University of Tabriz, Iran. he has Contributed a number of research papers to international journals and has been research consultant for many government and private agencies in the feild of structures and solid mechanics. | |
| Table of contents | |
Introductory PART I: GENERAL ANALYSIS Chapter 1. Deformable Bodies (Basic Concepts; Mechanical Properties) Chapter 2. Analysis of Stresses (Equilibrium) Chapter 3. Analysis of Strains (Compatibility) Chapter 4. Stress-Strain Relations PART II: PARTICULAR APPLICATIONS Chapter 5. Uniaxial Deformations Chapter 6. Torsion; Including Non-Circular Sections Chapter 7. Beam and Bending Chapter 8. Stability of Equilibrium-Columns Chapter 9. Combined Stresses Chapter 10. Introduction to Energy Methods Chapter 11. Conclusion References Appendices Index | |
