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Title CYCLIC PLASTICITY OF METALS [electronic resource] : modeling fundamentals and applications.

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[S.l.] : ELSEVIER, 2021.

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Available to Pittsburg State University patrons only.

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Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Description	1 online resource
	text rdacontent
	still image rdacontent
	computer rdamedia
	online resource rdacarrier
Series	Elsevier series on plasticity of materials
Contents	Front Cover -- Cyclic Plasticity of Metals -- Copyright -- Contents -- List of contributors -- Foreword -- Preface -- Part I Introduction -- 1 Experimental observations in cyclic loading of metals -- 1.1 Introduction -- 1.2 Bauschinger phenomenon -- 1.2.1 Early reverse yielding -- 1.2.2 Transient hardening and permanent softening -- 1.2.3 Hardening stagnation -- 1.2.4 Microstructure link -- 1.3 Cyclic hardening/softening -- 1.3.1 Fully-reversed loading -- 1.3.2 Additional nonproportional hardening -- 1.3.3 Microstructure link -- 1.4 Mean stress/strain response evolution
	1.4.1 Mean stress relaxation -- 1.4.2 Ratcheting -- 1.4.3 Microstructure link -- 1.5 Direction-dependent behavior -- 1.5.1 Tension-compression asymmetry -- 1.5.2 Directional anisotropy -- 1.5.3 Microstructure link -- 1.6 Masing behavior -- 1.7 Closing remarks -- References -- 2 Fundamentals of cyclic plasticity models -- 2.1 States of stress and strain -- 2.1.1 Stress tensors -- 2.1.1.1 Types of forces -- 2.1.1.2 Stress at a point -- 2.1.1.3 Components of stress -- 2.1.1.4 Stress on oblique planes -- 2.1.1.5 Principal stresses -- 2.1.1.6 Octahedral shear stress -- 2.1.1.7 Deviatoric stress tensor
	2.1.1.8 Equilibrium equations -- 2.1.2 Strain tensors -- 2.1.2.1 Displacement and strain -- 2.1.2.2 Strain invariants -- 2.1.2.3 Compatibility equations -- 2.2 Stress-strain relations -- 2.2.1 Elasticity -- 2.2.1.1 Elastic material constants -- 2.2.1.2 Generalized Hooke law of elasticity -- 2.2.1.3 Navier-Cauchy equations of elasticity -- 2.2.2 Yield criteria -- 2.2.2.1 Tresca yield criterion -- 2.2.2.2 Von Mises yield criterion -- 2.2.2.3 State of loading -- 2.2.2.4 Consistency condition -- 2.2.2.5 Flow rule -- 2.2.3 Plasticity -- 2.2.3.1 Stress-strain curves -- 2.2.3.2 Multiaxial loading
	2.2.3.3 Total deformation plasticity -- 2.2.3.4 Incremental plasticity -- 2.3 Hardening rules -- 2.3.1 Isotropic hardening -- 2.3.2 Kinematic hardening -- 2.3.2.1 Prager rule -- 2.3.2.2 Ziegler rule -- 2.3.2.3 Armstrong-Frederick rule -- 2.3.2.4 Mróz multisurface model -- 2.3.2.5 Garud modification -- 2.3.3 Combined hardening -- 2.4 Closing remarks -- References -- Part II Cyclic plasticity models -- 3 Multisurface cyclic plasticity -- 3.1 Introduction -- 3.2 General framework for small strains based on stored energies and elastic corrector rates
	3.3 Overlay and nested surface models. The Mróz model -- 3.4 A translation rule for an implicit implementation of the Mróz model -- 3.5 Multisurface model using Prager translation rule -- 3.6 Connection with subloading and bounding surface models -- 3.7 Rheology-based models without explicit backstress -- 3.8 Comparison of multisurface models for multiaxial cyclic behavior -- 3.9 Large strains formulation of Besseling models -- 3.10 Concluding remarks -- References -- 4 Two-surface cyclic plasticity -- 4.1 Introduction -- 4.2 Fundamentals of two-surface plasticity
Summary	Cyclic Plasticity of Metals: Modeling Fundamentals and Applications provides an exhaustive overview of the fundamentals and applications of various cyclic plasticity models including forming and spring back, notch analysis, fatigue life prediction, and more. Covering metals with an array of different structures, such as hexagonal close packed (HCP), face centered cubic (FCC), and body centered cubic (BCC), the book starts with an introduction to experimental macroscopic and microscopic observations of cyclic plasticity and then segues into a discussion of the fundamentals of the different cyclic plasticity models, covering topics such as kinematics, stress and strain tensors, elasticity, plastic flow rule, and an array of other concepts. A review of the available models follows, and the book concludes with chapters covering finite element implementation and industrial applications of the various models.
Subject	Metals -- Plastic properties.
	Metals -- Plastic properties -- Mathematical models.
	Métaux -- Plasticité.
	Métaux -- Plasticité -- Modèles mathématiques.
	Metals -- Plastic properties
	Metals -- Plastic properties -- Mathematical models
Added Author	Jahed, Hamid
	Roostaei, Ali.
Other Form:	Print version: 0128192933 9780128192931 (OCoLC)1233165224
ISBN	9780128192948 (electronic bk.)
	0128192941 (electronic bk.)
	0128192933
	9780128192931
Standard No.	AU@ 000070477266
	UKMGB 020363665
	AU@ 000070397033