TY - BOOK AU - Havner,K.S. TI - Finite plastic deformation of crystalline solids T2 - Cambridge monographs on mechanics SN - 9780511526435 (ebook) AV - QD933 .H38 1992 U1 - 531/.38 20 PY - 1992/// CY - Cambridge PB - Cambridge University Press KW - Plasticity KW - Crystals KW - Mechanical properties KW - Deformations (Mechanics) N1 - Title from publisher's bibliographic system (viewed on 05 Oct 2015); 1. A historical introduction -- 2. The kinematics of double slip -- 3. A general theory of elastoplastic crystals -- 4. Axial load experiments and latent hardening in single crystals -- 5. Analysis of crystals in channel die compression -- 6. Theoretical connections between crystal and aggregate behaviour -- 7. Approximate polycrystal models -- Appendix: The general theory of work-conjugate stress and strain N2 - This book reviews and interrelates a large number of theoretical and experimental contributions to the research on finite plastic deformation of single crystals and polycrystalline metals. An overall theoretical framework for investigation of large strains in crystalline materials is presented that enables the blending of contemporary and earlier experimental research with modern concepts in solid mechanics. Professor Havner has provided a historical perspective throughout, including accurate attribution of ideas and emphasis on pioneering studies, beginning with G. I. Taylor and the German researchers in the 1920s. Early chapters deal with single crystals, including extensive analyses of particular experimental configurations. Then connections between single crystals and polycrystalline material behaviour are considered. Necessary background to the most general theoretical sections is presented in an appendix and approximately 200 references to the primary scientific literature are included. Engineering scientists, applied mathematicians and physical metallurgists will find this volume an invaluable guide to the development of finite plastic deformation theory UR - https://doi.org/10.1017/CBO9780511526435 ER -