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Fundamentals of strength = principle...

Follansbee, Paul S.

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Fundamentals of strength = principles, experiments, and applications of an internal state variable constitutive formulation /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Fundamentals of strength/ by Paul Follansbee.
Reminder of title:	principles, experiments, and applications of an internal state variable constitutive formulation /
Author:	Follansbee, Paul S.
Published:	Cham :Springer International Publishing : : 2022.,
Description:	xxix, 525 p. :ill., digital ;24 cm.
[NT 15003449]:	Contributions to Strength -- Dislocation-Obstacle Interactions -- A Constitutive Law for Metal Deformation -- Further MTS Model Developments -- Data Analysis: Deriving MTS Model Parameters -- Application to Copper and Nickel -- Application to BCC Metals and Alloys -- Application to HCP Metals and Alloys -- Application to Austenitic Stainless Steels -- Application to the Strength of Heavily Deformed Metals -- Summary and Status Of Model Development.
Contained By:	Springer Nature eBook
Subject:	Strength of materials - Mathematical models. -
Online resource:	https://doi.org/10.1007/978-3-031-04556-1
ISBN:	9783031045561

Fundamentals of strength = principles, experiments, and applications of an internal state variable constitutive formulation /
Follansbee, Paul S.

Fundamentals of strengthprinciples, experiments, and applications of an internal state variable constitutive formulation /[electronic resource] :by Paul Follansbee. - Second edition. - Cham :Springer International Publishing :2022. - xxix, 525 p. :ill., digital ;24 cm. - Minerals, metals & materials series,2367-1696. - Minerals, metals & materials series..

Contributions to Strength -- Dislocation-Obstacle Interactions -- A Constitutive Law for Metal Deformation -- Further MTS Model Developments -- Data Analysis: Deriving MTS Model Parameters -- Application to Copper and Nickel -- Application to BCC Metals and Alloys -- Application to HCP Metals and Alloys -- Application to Austenitic Stainless Steels -- Application to the Strength of Heavily Deformed Metals -- Summary and Status Of Model Development.

This second edition updates and expands on the class-tested first edition text, augmenting discussion of dynamic strain aging and austenitic stainless steels and adding a section on analysis of nickel-base superalloys that shows how the mechanical threshold stress (MTS) model, an internal state variable constitutive formulation, can be used to de-convolute synergistic effects. The new edition retains a clear and rigorous presentation of the theory, mechanistic basis, and application of the MTS model. Students are introduced to critical competencies such as crystal structure, dislocations, thermodynamics of slip, dislocation-obstacle interactions, deformation kinetics, and hardening through dislocation accumulation. The model described in this volume facilitates readers' understanding of integrated computational materials engineering (ICME), presenting context for the transition between length scales characterizing the mesoscale (mechanistic) and the macroscopic. Presenting readers a model buttressed by detailed examples and applications, the textbook is ideal for students, practitioners, and materials researchers. The new edition: Maximizes reader understanding of the mechanical threshold stress (MTS) model using data, examples, and applications Connects deformation in metals to structure and defects, including data and analyses of more than 20 pure metals and alloys Reinforces concepts with exercises and tools for estimating influence of temperature and strain rate on deformation.

ISBN: 9783031045561

Standard No.: 10.1007/978-3-031-04556-1doiSubjects--Topical Terms:

626388
Strength of materials
--Mathematical models.

LC Class. No.: TA405 / .F65 2022

Dewey Class. No.: 620.112

Fundamentals of strength = principles, experiments, and applications of an internal state variable constitutive formulation /
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245 1 0 $a Fundamentals of strength $h [electronic resource] : $b principles, experiments, and applications of an internal state variable constitutive formulation / $c by Paul Follansbee.
250 $a Second edition.
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300 $a xxix, 525 p. : $b ill., digital ; $c 24 cm.
490 1 $a Minerals, metals & materials series, $x 2367-1696
505 0 $a Contributions to Strength -- Dislocation-Obstacle Interactions -- A Constitutive Law for Metal Deformation -- Further MTS Model Developments -- Data Analysis: Deriving MTS Model Parameters -- Application to Copper and Nickel -- Application to BCC Metals and Alloys -- Application to HCP Metals and Alloys -- Application to Austenitic Stainless Steels -- Application to the Strength of Heavily Deformed Metals -- Summary and Status Of Model Development.
520 $a This second edition updates and expands on the class-tested first edition text, augmenting discussion of dynamic strain aging and austenitic stainless steels and adding a section on analysis of nickel-base superalloys that shows how the mechanical threshold stress (MTS) model, an internal state variable constitutive formulation, can be used to de-convolute synergistic effects. The new edition retains a clear and rigorous presentation of the theory, mechanistic basis, and application of the MTS model. Students are introduced to critical competencies such as crystal structure, dislocations, thermodynamics of slip, dislocation-obstacle interactions, deformation kinetics, and hardening through dislocation accumulation. The model described in this volume facilitates readers' understanding of integrated computational materials engineering (ICME), presenting context for the transition between length scales characterizing the mesoscale (mechanistic) and the macroscopic. Presenting readers a model buttressed by detailed examples and applications, the textbook is ideal for students, practitioners, and materials researchers. The new edition: Maximizes reader understanding of the mechanical threshold stress (MTS) model using data, examples, and applications Connects deformation in metals to structure and defects, including data and analyses of more than 20 pure metals and alloys Reinforces concepts with exercises and tools for estimating influence of temperature and strain rate on deformation.
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