A good grasp of the theory of structures--the basis by which the strength, stiffness and stability of a building can be understood--is fundamental to structural engineers and architects. Yet most modern structural analysis and design is carried out by computer, with the user isolated from the processes in action. This book provides a broad introduction to the mathematics behind a range of structural processes--to help today's structural engineers and practicing architects gain a better intuitive understanding of the subject. The basic structural equations have been known for at least 150 years, but modern plastic theory has opened up a fundamentally new way of advancing structural theory. Paradoxically, the powerful plastic theorems can be used to examine "classic" elastic design activity, and strong mathematical relationships exist between these two approaches. This lucid volume is valuable for anyone who wishes a deeper knowledge of the structural analysis and design of buildings.
|Publisher:||Cambridge University Press|
|Edition description:||New Edition|
|Product dimensions:||5.94(w) x 8.98(h) x 0.39(d)|
Table of ContentsPreface; 1. The theory of structures; 2. Virtual work; 3. Betti, Maxwell, Müller-Breslau, Melchers; 4. Jettied construction; 5. Clebsch, Macaulay, Wittrick, Lowe; 6. The elastica; 7. Mechanisms of collapse; 8. The absolute minimum-weight design of frames; 9. Inverse design of grillages; 10. The relation between incremental and static plastic collapse; 11. The bending of a beam of trapezoidal cross-section; 12. The simple plastic bending of beams; 13. Leaning walls; domes and fan vaults; the error function; Bibliography; Name index; Subject index.