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Title
Elastoplastic behavior of highly ductile materials / Maosheng Zheng, Zhifu Yin, Haipeng Teng, Jiaojiao Liu, Yi Wang.
ISBN
9789811509063 (electronic book)
9811509069 (electronic book)
9789811509056
Published
Singapore : Springer, 2019.
Language
English
Description
1 online resource (xiii, 173 pages) : illustrations.
Item Number
10.1007/978-981-15-0906-3 doi
10.1007/978-981-15-0
Call Number
TA418
Dewey Decimal Classification
620.1/1232
Summary
This book mainly introduces some basic phenomena and laws of highly ductile materials during elastoplastic deformation, and their engineering applications, such as the transfer and relief of stress concentration in the notch root, the mitigation of possible brittle fracture, the ductile deformation and damage, fatigue, energy absorption, plastic buckling, thermal stress problems, etc. It shows a number of revolutions in modern applications and design, which are beneficial to the safety of modern equipment, and improve applicability. In addition, the first three chapters of this book also briefly introduce the basic knowledge of elastoplastic deformation and analysis as a preliminary knowledge. This book can be used as a textbook for advanced undergraduate students and postgraduate in non-mechanics majors such as mechanical engineering, power, material or civil engineering, as well as scholars and engineers in related fields.
Bibliography, etc. Note
Includes bibliographical references.
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed October 23, 2019).
Introduction
Physical relationship in elastoplastic mechanics
Solutions to the typical problem of elastoplasticity
Transfer and Mitigation of Stress Concentration at the Root of a Notch for Highly Ductile Materials
Elastic-Plastic Problems in the Manufacturing Process of Bimetal Composite Pipes
Bending and Failure of Highly Ductile Pipes
Effect of Defects on Pipe Bending Behavior
Thermal Stress Problems
Fatigue Behavior of Highly Ductile Materials
Energy Absorption of Highly Ductile Materials.