February 5, 2019 Forthcoming
Reference - 242 Pages - 100 B/W Illustrations
ISBN 9780367201517 - CAT# K418476
For Instructors Request Inspection Copy
Presents a new physical and mathematical theory of irreversible deformations and ductile fracture of metals that acknowledges the continuous change in the structure of materials during deformation and the accumulation of deformation damage. Plastic deformation, viscous destruction, evolution of structure, creep processes, and long-term strength of metals and stress relaxation are described in the framework of a unified approach and model. The author then expands this into a mathematical model for determining the mechanical characteristics of quasi-samples of standard mechanical properties in deformed semi-finished products.
THE CURRENT STATE OF THE MECHANICS AND PHYSICS OF THE STRENGTH AND PLASTICITY OF METALS. Fundamentals of the mechanics of the strength and plasticity of metals. Fundamentals of the phenomenological theories of fracture and fracture criteria of metals at high plastic strains. Fundamentals of the physics of strength and plasticity of metals. UNIQUE PHYSICAL-MATHEMATICAL THEORY OF HIGH REVERSIBLE STRAINS AND DUCTILE FRACTURE OF METALS. The physical-phenomenological model of the unique process of plastic deformation and ductile fracture of metals. The physico-phenomenological model of plasticity of high cyclic deformation and similar cold deformation. Physico-phenomenological models of irreversible strains in metals. Experimental verification of the adequacy of models. Mathematical formulation and examples of solving applied problems of the physico-mathematical theory of plasticity. Conclusions.