Plasticity-Damage Couplings: From Single Crystal to Polycrystalline Materials [electronic resource] / by Oana Cazacu, Benoit Revil-Baudard, Nitin Chandola.
By: Cazacu, Oana [author.].
Contributor(s): Revil-Baudard, Benoit [author.] | Chandola, Nitin [author.] | SpringerLink (Online service).
Material type: BookSeries: Solid Mechanics and Its Applications: 253Publisher: Cham : Springer International Publishing : Imprint: Springer, 2019Edition: 1st ed. 2019.Description: XIII, 581 p. 301 illus., 198 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783319929224.Subject(s): Mechanics, Applied | Solids | Metals | Mathematical models | Engineering design | Solid Mechanics | Metals and Alloys | Mathematical Modeling and Industrial Mathematics | Engineering DesignAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 620.105 Online resources: Click here to access onlinePreface -- 1 Mathematical Framework -- 2 Mathematical Framework of Plasticity Theory.-Part I: Elastic-Plastic Models for Single-Crystals -- 3 Elements of Crystallography -- 4 Modeling Plastic Deformation of Single Crystals -- Part II CONSTITUTIVE Models for ISOTROPIC PolycryStals -- 5 Modeling Plastic Deformation of Isotropic Polycrystals: Stress-Based Formulations -- 6 Modeling Plastic Deformation of Isotropic Polycrystals: Strain-Rate Based Formulations -- Part III CONSTITUTIVE Models for ANISOTROPIC MATERIALS -- 7 Modeling Plastic Deformation of Textured Polycrystals: Stress-Based Formulations -- 8 Modeling Plastic Deformation of Textured Polycrystals: Strain-Rate Based Plastic Potentials -- Part IV: ROLE OF PLASTIC DEFORMATION ON DAMAGE EVOLUTION -- 9 Effect of Plastic Deformation on Damage Evolution in Porous Isotropc Metallic Materials -- 10 Modeling the Effect of Plastic Deformation on Damage Evolution in Porous Anisotropic Metallic Materials -- Index.
Offering a well-balanced blend of theory and hands-on applications, this book presents a unified framework for the main dissipative phenomena in metallic materials: plasticity and damage. Based on representation theory for tensor functions and scale-bridging theorems, this framework enables the development of constitutive models that account for the influence of crystallographic structures and deformation mechanisms on the macroscopic behavior. It allows readers to develop a clear understanding of the range of applicability of any given model, as well as its capabilities and limitations, and provides procedures for parameter identification along with key concepts necessary to solve boundary value problems, making it useful to both researchers and engineering practitioners. Although the book focuses on new contributions to modeling anisotropic materials, the review of the foundations of plasticity and models for isotropic materials, completed with detailed mathematical proofs mean that it is self-consistent and accessible to graduate students in engineering mechanics and material sciences.
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