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This textbook is for courses on Mechanical Behavior of Materials taught in departments of Mechanical Engineering and Materials Science. The text includes numerous examples and problems for student practice. The book emphasizes quantitative problem solving. End of the chapter notes are included to increase student's interest. This text differs from others because the treatment of plasticity has greater emphasis on the interrelationship of the flow, effective strain and effective stress and their use in conjunction with yield criteria to solve problems. The treatment of defects is new. Schmid's law is generalized for complex stress states. Its use with strains allows for prediction of R-values for textures. Another feature is the treatment of lattice rotations and how they lead to deformation textures. The chapter on fracture mechanics includes coverage of Gurney's approach. Much of the analysis of particulate composites is new. Few texts include anything on metal forming.
Materials --- Matériaux --- Mechanical properties --- Propriétés mécaniques --- Mechanical properties. --- Matériaux --- Propriétés mécaniques --- Materials - Mechanical properties. --- Mecanique des materiaux
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This book combines theoretical concepts, real alloy systems, processing procedures, and examples of real-world applications. It reviews properties common to all metals before discussing specific nonferrous alloy systems, iron-carbon alloys, special steels and low carbon sheet steel, and cast irons. Concluding chapters treat powder metallurgy, corrosion, welding and magnetic alloys. There are appendices on microstructural analysis, stereographic projection, and the Miller-Bravais system for hexagonal crystals. Physical Metallurgy uses engaging historical and contemporary examples that relate to the applications of concepts in each chapter, ample references and sample problems throughout. This text is a superb tool for any advanced materials science course.
Physical metallurgy. --- 669 --- Metallurgy --- 669 Metallurgy --- Physical metallurgy --- Physics --- Métallurgie physique
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Crystals --- Plasticity --- Polycrystals --- #KVIV:BB --- Polycrystalline solids --- Polycrystalline substances --- Cohesion --- Deformations (Mechanics) --- Elasticity --- Plastics --- Rheology --- Crystallography --- Powders --- Solids --- Crystals. --- Plasticity. --- Polycrystals.
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"This is a textbook for courses in departments of Civil and Mechanical Engineering commonly called strength of materials or mechanics of materials. The intent of this book is to provide a background in the mechanics of solids for students of mechanical engineering, while limiting the information on why materials behave as they do. It is assumed that the students have already had courses covering materials science and basic statics. Much of the material is drawn from another book by the author, Mechanical Behavior of Materials. To make the text suitable for Mechanical Engineers, the chapters on slip, dislocations, twinning, residual stresses and hardening mechanisms have been eliminated and the treatments in other chapters about of ductility viscoelasticity, creep, ceramics and polymers have been simplified"--Provided by publisher.
Strength of materials. --- Mechanical engineering --- Materials.
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This textbook fits courses on mechanical behavior of materials in mechanical engineering and materials science and includes numerous examples and problems. It emphasizes quantitative problem solving. This text differs from others because the treatment of plasticity emphasizes the interrelationship of the flow, effective strain, and effective stress and their use in conjunction with yield criteria to solve problems. The treatment of defects is new, as is the analysis of particulate composites. Schmid's law is generalized for complex stress states. Its use with strains allows for prediction of R-values for textures. Of note is the treatment of lattice rotations related to deformation textures. The chapter on fracture mechanics includes coverage of Gurney's approach. Among the highlights in this new edition are the treatment of the effects of texture on properties and microstructure in Chapter 7, a new chapter (12) on discontinuous and inhomogeneous deformation, and the treatment of foams in Chapter 21.
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This textbook is for courses on Mechanical Behavior of Materials taught in departments of Mechanical Engineering and Materials Science. The text includes numerous examples and problems for student practice. The book emphasizes quantitative problem solving. End of the chapter notes are included to increase students' interest. This text differs from others because the treatment of plasticity has greater emphasis on the interrelationship of the flow, effective strain and effective stress and their use in conjunction with yield criteria to solve problems. The treatment of defects is new. Schmid's law is generalized for complex stress states. Its use with strains allows for prediction of R-values for textures. Another feature is the treatment of lattice rotations and how they lead to deformation textures. The chapter on fracture mechanics includes coverage of Gurney's approach. Much of the analysis of particulate composites is new. Few texts include anything on metal forming.
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