1. Stress.
- Introduction. Analysis of Internal Forces; Stress. Axially Loaded Bars. Shear Stress. Bearing Stress.
2. Strain.
- Introduction. Axial Deformation; Stress-Strain Diagram. Axially Loaded Bars. Generalized Hooke's Law. Statically Indeterminate Problems. Thermal Stresses.
3. Torsion.
- Introduction. Torsion of Circular Shafts. Torsion of Thin-Walled Tubes. Torsion of Rectangular Bars.
4. Shear And Moment In Beams.
- Introduction. Supports and Loads. Shear-Moment Equations and Shear-Moment Diagrams. Area Method for Drawing Shear-Moment Diagrams.
5. Stresses In Beams.
- Introduction. Bending Stress. Economic Sections. Shear Stress in Beams. Design for Flexure and Shear. Design of Fasteners in Built-up Beams.
6. Deflection Of Beams.
- Introduction. Double Integration Method. Double Integration Using Bracket Functions. Moment-Area Method. Method of Superposition.
7. Statically Indeterminate Beams.
- Introduction. Double-Integration Method. Double-Integration Using Bracket Functions. Moment-Area Method. Method of Superposition.
8. Stresses Due To Combined Loads.
- Introduction. Thin-Walled Pressure Vessels. Combined Axial and Lateral Loads. State of Stress at a Point. Transformation of Plane Stress. Mohr's Circle for Plane Stress. Absolute Maximum Shear Stress. Applications of Stress Transformation to Combined Loads. Transformation of Strain: Mohr's Circle for Strain. The Strain Rosette. Relationship Between Shear Modulus and Modulus of Elasticity.
9. Composite Beams.
- Introduction. Flexure Formula for Composite Beams. Shear Stress and Deflection in Composite Beams. Reinforced Concrete Beams.
10. Columns.
- Introduction. Critical Load. Discussion of Critical Loads. Design Formulas for Intermediate Columns. Eccentric Loading: Secant Formula.
11. Additional Beam Topics.
- Introduction. Shear Flow in Thin-Walled Beams. Shear Center. Unsymmetrical Bending. Curved Beams.
12. Special Topics.
- Introduction. Energy Methods. Dynamic Loading. Theories of Failure. Stress Concentration. Fatigue under Repeated Loading.
13. Inelastic Action.
- Introduction. Limit Torque. Limit Moment. Residual Stresses. Limit Analysis.
Appendices
- Appendix A: Review Of Properties Of Plane Areas.
- Appendix B: Tables.
Key Features
- Offers concise coverage of all of the required material for a Mechanics of Materials course.
- Covers fundamental concepts – clearly and simply – without clouding students’ understanding with details about special cases.
- Advanced topics are found in later chapters and are not interwoven into the early chapters on the basic theory allowing the core material to be efficiently taught without skipping over topics within chapters.
- The general transformation equation for stress (including Mohr’s Circle) are deferred until Chapter 8, after students have gained experience with the basics of axial, torsional, and bending loads.
- In the derivation of formulas, the authors emphasize the physical situation before implementing mathematics to model the problem.
- Free-body diagrams are used throughout the text to identify unknown quantities and to recognize the number of independent equations.
- Virtually, every article is immediately illustrated by sample problems and homework problems that illustrate the principles and the problem-solving procedure introduced in the article.
- End-of-chapter homework exercises serve as a review of the material covered in the chapter.
- Design-oriented computer problems are included at the end of most chapters, intended to be solved using computer languages such as MathCAD and/or MATLAB.
- The text contains an equal number of problems using SI and US Customary Units.
- Basic equations are summarized inside the back cover of the textbook for easy access.
New to This Edition
- Now includes the analysis of the torsion of rectangular bars, discussing an important applied problem within engineering design.
- Expanded article on reinforced concrete beams now includes Ultimate Moment Analysis based upon the most recent code of the American Concrete Institute (ACI).
- Revised article on the design of intermediate columns now includes the most recent specifications of the American Institute of Steel Construction (AISC).
- Increased amount of figures to accompany homework problems.
- New and revised sample and homework problems.
About the Author
- Professor Andrew Pytel received his Bachelor of Science Degree in Electrical Engineering in 1957, his M.S. in Engineering Mechanics in 1959, and his Ph.D in Engineering Mechanics in 1963; all from The Pennsylvania State University. In addition to his career at Penn State U, Professor Pytel was an Assistant Professor at the Rochester Institute of Technology in the Dept of Mechanical Engineering (1962-65), an Assistant Professor at Northeastern University in Boston (1965-67). He became a full Professor at The Penn State U in 1984 and a Professor Emeritus in 1995. Throughout his career Professor Pytel has taught many different courses and has been the recipient of many honors and awards. He has particpated heavily with the American Society for Engineering Education and was named a Fellow of the ASEE in 2008. He is the author and co-author of these following books:
- Jaan Kiusalaas, Professor Emeritus, Engineering Science and Mechanics, The Pennsylvania State University. Professor Kiusalaas received his Honors BA in Civil Engineering from the University of Adelaide, Australia, his M.S. in Civil Engineering and his Ph D. in Engineering Mechanics, both from Northwestern University. He has been a Professor at The Pennsylvania State University since 1963. He is also a Senior Postdoctoral Fellow of NASA's Marshall Space Flight Centre. Professor Kiusalaas' teaching experience includes such topics as Numerical Methods (including finite element and boundary element methods), and Engineering Mechanics ranging from introductory courses (statics & dynamics) to graduate level courses. He is the author and co-author of these following books:
Book Details
- Hardcover: 554 pages
- Publisher: CL-Engineering; 2 edition (January 1, 2011)
- Language: English
- ISBN-10: 0495667757
- ISBN-13: 978-0495667759
- Product Dimensions: 10.1 x 8.1 x 1.2 inches
List Price: $217.95