An introduction to the fundamental concepts of solid materials and their properties
- The primary recommended text of the Council of Engineering Institutions for university undergraduates studying the mechanics of solids
- New chapters covering revisionary mathematics, geometrical properties of symmetrical sections, bending stresses in beams, composites and the finite element method
- Free electronic resources and web downloads support the material contained within this book
Mechanics of Solids provides an introduction to the behaviour of solid materials and their properties, focusing upon the fundamental concepts and principles of statics and stress analysis. Essential reading for first year undergraduates, the mathematics in this book has been kept as straightforward as possible and worked examples are used to reinforce key concepts. Practical stress and strain scenarios are also covered including stress and torsion, elastic failure, buckling, bending, as well as examples of solids such as thin-walled structures, beams, struts and composites. This new edition includes new chapters on revisionary mathematics, geometrical properties of symmetrical sections, bending stresses in beams, composites, the finite element method, and Ross’s computer programs for smartphones, tablets and computers.
Table of Contents
Preface 1. Revisionary mathematics 2.Further revisionary mathematics 3. Statics 4. Stress and strain 5. Geometrical properties of symmetrical sections 6. Bending stresses in beams 7. Beam deflections due to bending 8. Torsion 9. Complex stress and strain 10. Membrane theory for thin-walled circular cylinders and spheres 11. Energy methods 12. Theories of elastic failure 13. Thick cylinders and spheres 14. The buckling of struts 15. Unsymmetrical bending of beams 16. Shear stresses in bending and shear deflections 17. Composites 18. The matrix displacement method 19. The finite element method 20. Experimental strain analysis A list of formulae for Mechanics of Solids Answers to Multiple-choice questions References Index
Carl Ross gained his first degree in Naval Architecture, from King’s College, Durham University; his PhD in Structural Engineering from the Victoria University of Manchester; and was awarded his DSc in Ocean Engineering from the CNAA, London. His research in the field of engineering led to advances in the design of submarine pressure hulls. His publications and guest lectures to date exceed some 290 papers and books, etc., and he was Professor of Structural Dynamics at the University of Portsmouth, UK.
John Bird is the former Head of Applied Electronics in the Faculty of Technology at Highbury College, Portsmouth, UK. More recently, he has combined freelance lecturing and examining. He is the author of over 125 textbooks on engineering and mathematical subjects with worldwide sales of one million copies. He is currently lecturing at the Defence School of Marine Engineering in the Defence College of Technical Training at H.M.S. Sultan, Gosport, Hampshire, UK.
Andrew Little worked for several years as a Stress Engineer for Rolls-Royce and then companies such as Ferranti Computer Systems where his specialism was the design of equipment for high stress and vibration environments. He came to the University of Portsmouth where he became involved with pressure vessel research and completed his PhD whilst lecturing full-time. He is a chartered engineer, a Fellow of the Institution of Mechanical Engineers, a Fellow of the Institution of Engineering Designers and has published 75 academic papers.