3 edition of **Mechanics and plasticity of structures** found in the catalog.

Mechanics and plasticity of structures

A. Sawczuk

- 19 Want to read
- 32 Currently reading

Published
**1989** by E. Horwood, Halsted Press in Chichester, West Sussex, England, New York .

Written in English

- Plastic analysis (Engineering)

**Edition Notes**

Statement | A. Sawczuk ; edited by J. Sokół-Supel ; translation editor, J.M. Alexander. |

Series | Ellis Horwood series in mechanical engineering |

Contributions | Sokół-Supel, Joanna., Alexander, John Malcolm. |

Classifications | |
---|---|

LC Classifications | TA652 .S3713 1989 |

The Physical Object | |

Pagination | 203 p. : |

Number of Pages | 203 |

ID Numbers | |

Open Library | OL2525649M |

ISBN 10 | 0470211024 |

LC Control Number | 88000762 |

Keywords materials mechanics metal plasticity stability stress structures Editors and affiliations. It is better to follow a good reading list to study a subject step by step. When the stress is greater than the yield stress, the material behaves plastically and does not return to its previous state. Read through that one and let me know what you think and I might be able to suggest something else based on your review.

The book concludes with examples of these concepts and modeling techniques being deployed in real-world applications. Heat treatment such as annealing can restore the ductility of a worked piece, so that shaping can continue. He was awarded the Polish Humboldt Prize in Response models[ edit ] A material has a rest shape and its shape departs away from the rest shape due to stress. The final prices may differ from the prices shown due to specifics of VAT rules About this book This book presents studies on the plasticity, failure, and damage behavior of materials and structures under monotonic and cyclic loads. However, this suggestion is made with the assumption that you already have a foundation in mechanics stress, strain, elasticity, etc.

Computational Methods for Plasticity: Theory and Applications describes the theory of the associated numerical methods for the simulation of a wide range of plastic engineering materials; from the simplest infinitesimal plasticity theory to more complex damage mechanics and finite strain crystal plasticity models. Ductile materials can sustain large plastic deformations without fracture. The theories and methods provided in this book can also be used for other computer codes and different structures. Deformation theory[ edit ] An idealized uniaxial stress-strain curve showing elastic and plastic deformation regimes for the deformation theory of plasticity There are several mathematical descriptions of plasticity. Since amorphous materials, like polymers, are not well-ordered, they contain a large amount of free volume, or wasted space.

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The simplest theory involves the Fourier's law of heat conduction, as opposed to advanced theories with physically more realistic models. It occurs for stress values where the metal is globally in the elastic domain while some local areas are in the plastic domain.

The direct stiffness method which forms the backbone of most computer programs is also discussed. The book starts by providing a foundational overview of continuum mechanics, elasticity and plasticity, then segues into more sophisticated topics such as multiplicative decomposition of deformation gradient tensor with the isoclinic concept, and subloading surface model for cyclic loading.

With the help of that, in my opinion, the following might be a good and short reading list for engineering students to study solid mechanics step by step: F. Most metals show more plasticity when hot than when cold. When the author talks about differentiating the yield functional with respect to stress functional, I expect that the author should mention what forms the basis vector for the vector space, dual vector space.

Linearly elastic materials, those that deform proportionally to the applied load, can be described by the linear elasticity equations such as Hooke's law. As in any field of scientific endeavor, research confronts the scientists with anomalies; our chosen area is no exception.

About the authors Prof. Because I am still learning this subject, please let me know if you have some comments. This haziness is the result of crazingwhere fibrils are formed within the material in regions of high hydrostatic stress.

Free shipping for individuals worldwide Usually dispatched within 3 to 5 business days. It will also be of interest to research engineers, scientists and software developers working in the field of computational solid mechanics.

He graduated from Leningrad Polytechnic Institute in diploma with a distinctionand defended his Ph. In metals[ edit ] Plasticity in a crystal of pure metal is primarily caused by two modes of deformation in the crystal lattice: slip and twinning. Zerna, Theoretical Elasticity.

Viscoelasticity — These are materials that behave elastically, but also have damping : when the stress is applied and removed, work has to be done against the damping effects and is converted in heat within the material resulting in a hysteresis loop in the stress—strain curve.

Thermoelasticity - There is coupling of mechanical with thermal responses. He was awarded the Polish Humboldt Prize in Johnston, E. Lifschitz, Theory of Elasticity. This method of modeling the foam as beams is only valid if the ratio of the density of the foam to the density of the matter is less than 0.

Heat treatment such as annealing can restore the ductility of a worked piece, so that shaping can continue. He has over 35 years of research experience, mainly in the areas of plasticity, creep, fatigue, experimental methods in solid mechanics, and modeling of creep constitutive equations.

Let me give you an example. I don't know whether this is the standard way in plasticity, as I do not much about it. We have many discussions in iMechanica about the solid mechanics books.

Deformation theory[ edit ] An idealized uniaxial stress-strain curve showing elastic and plastic deformation regimes for the deformation theory of plasticity There are several mathematical descriptions of plasticity.

DeWolf, Mechanics of Materials.This book is based on 40 years of research and teaching in the fields of fracture mechanics and plasticity. It will bring students and engineers from various disciplines up to date on key concepts that have become increasingly important in the design of safety-relevant engineering structures in general and in modern lightweight structures in the transportation industry in atlasbowling.com: Springer International Publishing.

This book is based on 40 years of research and teaching in the fields of fracture mechanics and plasticity. It will bring students and engineers from various disciplines up to date on key concepts that have become increasingly important in the design of safety-relevant engineering structures in general and in modern lightweight structures in the transportation industry in atlasbowling.com by: 2.

Furthermore, the authors highlight recent developments in mixed finite element formulations in solid mechanics as well as novel techniques for flexible structures at finite deformations. The book also describes automation processes and the application of automatic differentiation technique, including characteristic problems, automatic code.

Basic principles of Elasticity and plasticity Elasticity and plasticity in building engineering – theoretical basement for the theory of structures (important for steel, concret, timber structures design) - to be able design safe structures (to resist mechanical load, temperature.

Mechanics of Materials and Structures - Ebook written by George Voyiadjis, L.C. Bank, L.J. Jacobs. Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Mechanics of Materials and Structures.

Download Theory of Elasticity and Plasticity By H. Jane Helena – Theory of Elasticity and Plasticity is designed as a textbook for both undergraduate and postgraduate students of engineering in civil, mechanical and aeronautical disciplines. This book has been written with the objective of bringing the concepts of elasticity and plasticity to the students in a simplified and comprehensive.