Verfügbarkeit: Mechanics of solid polymers :

Mechanics of solid polymers :: theory and computational modeling /

Very few polymer mechanics problems are solved with only pen and paper today, and virtually all academic research and industrial work relies heavily on finite element simulations and specialized computer software. Introducing and demonstrating the utility of computational tools and simulations, Mech...

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1. Verfasser:	Bergstrom, Jörgen (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Amsterdam : William Andrew is an imprint of Elsevier, 2015.
Ausgabe:	First edition.
Schlagworte:	Polymers > Mechanical properties. Polymers > Testing. Polymères > Propriétés mécaniques. TECHNOLOGY & ENGINEERING > Engineering (General) TECHNOLOGY & ENGINEERING > Reference. Polymers > Mechanical properties Polymers > Testing
Online-Zugang:	Volltext Volltext
Zusammenfassung:	Very few polymer mechanics problems are solved with only pen and paper today, and virtually all academic research and industrial work relies heavily on finite element simulations and specialized computer software. Introducing and demonstrating the utility of computational tools and simulations, Mechanics of Solid Polymers provides a modern view of how solid polymers behave, how they can be experimentally characterized, and how to predict their behavior in different load environments. Reflecting the significant progress made in the understanding of polymer behaviour over the last two decade.
Beschreibung:	1 online resource (xiv, 509 pages)
Bibliographie:	Includes bibliographical references and index.
ISBN:	9780323322966 0323322964 0323311504 9780323311502

Internformat

MARC


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245	1	0	\|a Mechanics of solid polymers : \|b theory and computational modeling / \|c Jörgen Bergström.
250			\|a First edition.
264		1	\|a Amsterdam : \|b William Andrew is an imprint of Elsevier, \|c 2015.
264		4	\|c ©2015
300			\|a 1 online resource (xiv, 509 pages)
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520			\|a Very few polymer mechanics problems are solved with only pen and paper today, and virtually all academic research and industrial work relies heavily on finite element simulations and specialized computer software. Introducing and demonstrating the utility of computational tools and simulations, Mechanics of Solid Polymers provides a modern view of how solid polymers behave, how they can be experimentally characterized, and how to predict their behavior in different load environments. Reflecting the significant progress made in the understanding of polymer behaviour over the last two decade.
504			\|a Includes bibliographical references and index.
505	0		\|a Front Cover; Mechanics of Solid Polymers: Theory and Computational Modeling; Copyright; Contents; Preface; Chapter 1: Introduction and Overview; 1.1 Introduction; 1.2 What Is a Polymer?; 1.3 Types of Polymers; 1.4 History of Polymers; 1.5 Polymer Manufacturing and Processing; 1.6 Polymer Mechanics; 1.7 Exercises; References; Chapter 2: Experimental Characterization Techniques; 2.1 Introduction; 2.2 Mechanical Testing for Material Model Calibration; 2.2.1 Uniaxial Compression Testing; 2.2.2 Uniaxial Tension Testing; 2.2.3 Plane Strain Tension; 2.2.4 Simple Shear Testing; 2.2.5 Impact Testing.
505	8		\|a 2.2.6 Dynamic Mechanical Analysis2.2.7 Hardness and Indentation Testing; Rockwell Hardness Testing; Shore (Durometer) Testing; Barcol Hardness Testing; Nanoindentation; 2.2.8 Split-Hopkinson Pressure Bar Testing; 2.2.9 Bulk Modulus Testing; 2.2.10 Other Common Mechanical Testing Modes; 2.2.11 Testing for Failure Model Calibration; 2.3 Mechanical Testing for Material Model Validation; 2.3.1 Material Model Verification and Validation; 2.3.2 Small Punch Testing; 2.3.3 V-Notch Shear Testing; 2.4 Surface Characterization Techniques; 2.4.1 Optical Microscopy; 2.4.2 Scanning Electron Microscopy.
505	8		\|a 2.4.3 Atomic Force Microscopy2.5 Volume Characterization Techniques; 2.5.1 Differential Scanning Calorimetry; 2.5.2 Transmission Electron Microscopy; 2.5.3 X-Ray Diffraction; Wide-Angle X-Ray Diffraction; Small-Angle X-Ray Diffraction; 2.5.4 Birefringence; 2.5.5 Swell Testing; 2.6 Chemical Characterization Techniques; 2.6.1 Fourier Transform Infrared Spectroscopy; 2.6.2 Energy Dispersive Spectroscopy; 2.6.3 Size-Exclusion Chromatography; 2.6.4 Thermogravimetric Analysis; 2.6.5 Raman Spectroscopy; 2.7 Exercises; References; Chapter 3: Finite Element Analysis as an Engineering Tool.
505	8		\|a 3.1 Introduction3.1.1 Required Inputs for FEA; 3.2 Types of FEA; 3.3 Review of Modeling Techniques; 3.3.1 Deformation Modeling; 3.3.2 Failure Modeling; 3.4 Exercises; References; Chapter 4: Continuum Mechanics Foundations; 4.1 Introduction; 4.2 Classical Definitions of Stress and Strain; 4.2.1 Uniaxial Loading; 4.2.2 Multiaxial Loading; 4.3 Large Strain Kinematics; 4.4 Vector and Tensor Algebra; 4.4.1 Vector Operations; 4.4.2 The Dyadic Product; 4.4.3 Tensor Operations; 4.4.4 Derivatives of Scalar, Vector, and Tensor Fields; 4.4.5 Coordinate Transformations; 4.4.6 Invariants.
505	8		\|a 4.5 Deformation Gradient4.5.1 Eigenvalue and Spectral Decompositions; 4.6 Strain, Stretch, and Rotation; 4.7 Rates of Deformation; 4.8 Stress Tensors; 4.8.1 Stress Invariants; 4.9 Balance Laws and Field Equations; 4.9.1 Conservation of Mass; 4.9.2 Balance of Linear Momentum; 4.9.3 Balance of Angular Momentum; 4.9.4 First Law of Thermodynamics; 4.9.5 Second Law of Thermodynamics; 4.10 Energy Balance and Stress Power; 4.11 Constitutive Equations; 4.11.1 Constitutive Equations for a Thermoelastic Material; 4.12 Observer Transformation; 4.12.1 Objective Rates; 4.13 Material Symmetry.
588	0		\|a Print version record.
650		0	\|a Polymers \|x Mechanical properties. \|0 http://id.loc.gov/authorities/subjects/sh85104669
650		0	\|a Polymers \|x Testing. \|0 http://id.loc.gov/authorities/subjects/sh85104674
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Datensatz im Suchindex

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contents	Front Cover; Mechanics of Solid Polymers: Theory and Computational Modeling; Copyright; Contents; Preface; Chapter 1: Introduction and Overview; 1.1 Introduction; 1.2 What Is a Polymer?; 1.3 Types of Polymers; 1.4 History of Polymers; 1.5 Polymer Manufacturing and Processing; 1.6 Polymer Mechanics; 1.7 Exercises; References; Chapter 2: Experimental Characterization Techniques; 2.1 Introduction; 2.2 Mechanical Testing for Material Model Calibration; 2.2.1 Uniaxial Compression Testing; 2.2.2 Uniaxial Tension Testing; 2.2.3 Plane Strain Tension; 2.2.4 Simple Shear Testing; 2.2.5 Impact Testing. 2.2.6 Dynamic Mechanical Analysis2.2.7 Hardness and Indentation Testing; Rockwell Hardness Testing; Shore (Durometer) Testing; Barcol Hardness Testing; Nanoindentation; 2.2.8 Split-Hopkinson Pressure Bar Testing; 2.2.9 Bulk Modulus Testing; 2.2.10 Other Common Mechanical Testing Modes; 2.2.11 Testing for Failure Model Calibration; 2.3 Mechanical Testing for Material Model Validation; 2.3.1 Material Model Verification and Validation; 2.3.2 Small Punch Testing; 2.3.3 V-Notch Shear Testing; 2.4 Surface Characterization Techniques; 2.4.1 Optical Microscopy; 2.4.2 Scanning Electron Microscopy. 2.4.3 Atomic Force Microscopy2.5 Volume Characterization Techniques; 2.5.1 Differential Scanning Calorimetry; 2.5.2 Transmission Electron Microscopy; 2.5.3 X-Ray Diffraction; Wide-Angle X-Ray Diffraction; Small-Angle X-Ray Diffraction; 2.5.4 Birefringence; 2.5.5 Swell Testing; 2.6 Chemical Characterization Techniques; 2.6.1 Fourier Transform Infrared Spectroscopy; 2.6.2 Energy Dispersive Spectroscopy; 2.6.3 Size-Exclusion Chromatography; 2.6.4 Thermogravimetric Analysis; 2.6.5 Raman Spectroscopy; 2.7 Exercises; References; Chapter 3: Finite Element Analysis as an Engineering Tool. 3.1 Introduction3.1.1 Required Inputs for FEA; 3.2 Types of FEA; 3.3 Review of Modeling Techniques; 3.3.1 Deformation Modeling; 3.3.2 Failure Modeling; 3.4 Exercises; References; Chapter 4: Continuum Mechanics Foundations; 4.1 Introduction; 4.2 Classical Definitions of Stress and Strain; 4.2.1 Uniaxial Loading; 4.2.2 Multiaxial Loading; 4.3 Large Strain Kinematics; 4.4 Vector and Tensor Algebra; 4.4.1 Vector Operations; 4.4.2 The Dyadic Product; 4.4.3 Tensor Operations; 4.4.4 Derivatives of Scalar, Vector, and Tensor Fields; 4.4.5 Coordinate Transformations; 4.4.6 Invariants. 4.5 Deformation Gradient4.5.1 Eigenvalue and Spectral Decompositions; 4.6 Strain, Stretch, and Rotation; 4.7 Rates of Deformation; 4.8 Stress Tensors; 4.8.1 Stress Invariants; 4.9 Balance Laws and Field Equations; 4.9.1 Conservation of Mass; 4.9.2 Balance of Linear Momentum; 4.9.3 Balance of Angular Momentum; 4.9.4 First Law of Thermodynamics; 4.9.5 Second Law of Thermodynamics; 4.10 Energy Balance and Stress Power; 4.11 Constitutive Equations; 4.11.1 Constitutive Equations for a Thermoelastic Material; 4.12 Observer Transformation; 4.12.1 Objective Rates; 4.13 Material Symmetry.
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illustrated	Not Illustrated
indexdate	2024-11-27T13:26:42Z
institution	BVB
isbn	9780323322966 0323322964 0323311504 9780323311502
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spelling	Bergstrom, Jörgen, author. Mechanics of solid polymers : theory and computational modeling / Jörgen Bergström. First edition. Amsterdam : William Andrew is an imprint of Elsevier, 2015. ©2015 1 online resource (xiv, 509 pages) text txt rdacontent computer c rdamedia online resource cr rdacarrier Very few polymer mechanics problems are solved with only pen and paper today, and virtually all academic research and industrial work relies heavily on finite element simulations and specialized computer software. Introducing and demonstrating the utility of computational tools and simulations, Mechanics of Solid Polymers provides a modern view of how solid polymers behave, how they can be experimentally characterized, and how to predict their behavior in different load environments. Reflecting the significant progress made in the understanding of polymer behaviour over the last two decade. Includes bibliographical references and index. Front Cover; Mechanics of Solid Polymers: Theory and Computational Modeling; Copyright; Contents; Preface; Chapter 1: Introduction and Overview; 1.1 Introduction; 1.2 What Is a Polymer?; 1.3 Types of Polymers; 1.4 History of Polymers; 1.5 Polymer Manufacturing and Processing; 1.6 Polymer Mechanics; 1.7 Exercises; References; Chapter 2: Experimental Characterization Techniques; 2.1 Introduction; 2.2 Mechanical Testing for Material Model Calibration; 2.2.1 Uniaxial Compression Testing; 2.2.2 Uniaxial Tension Testing; 2.2.3 Plane Strain Tension; 2.2.4 Simple Shear Testing; 2.2.5 Impact Testing. 2.2.6 Dynamic Mechanical Analysis2.2.7 Hardness and Indentation Testing; Rockwell Hardness Testing; Shore (Durometer) Testing; Barcol Hardness Testing; Nanoindentation; 2.2.8 Split-Hopkinson Pressure Bar Testing; 2.2.9 Bulk Modulus Testing; 2.2.10 Other Common Mechanical Testing Modes; 2.2.11 Testing for Failure Model Calibration; 2.3 Mechanical Testing for Material Model Validation; 2.3.1 Material Model Verification and Validation; 2.3.2 Small Punch Testing; 2.3.3 V-Notch Shear Testing; 2.4 Surface Characterization Techniques; 2.4.1 Optical Microscopy; 2.4.2 Scanning Electron Microscopy. 2.4.3 Atomic Force Microscopy2.5 Volume Characterization Techniques; 2.5.1 Differential Scanning Calorimetry; 2.5.2 Transmission Electron Microscopy; 2.5.3 X-Ray Diffraction; Wide-Angle X-Ray Diffraction; Small-Angle X-Ray Diffraction; 2.5.4 Birefringence; 2.5.5 Swell Testing; 2.6 Chemical Characterization Techniques; 2.6.1 Fourier Transform Infrared Spectroscopy; 2.6.2 Energy Dispersive Spectroscopy; 2.6.3 Size-Exclusion Chromatography; 2.6.4 Thermogravimetric Analysis; 2.6.5 Raman Spectroscopy; 2.7 Exercises; References; Chapter 3: Finite Element Analysis as an Engineering Tool. 3.1 Introduction3.1.1 Required Inputs for FEA; 3.2 Types of FEA; 3.3 Review of Modeling Techniques; 3.3.1 Deformation Modeling; 3.3.2 Failure Modeling; 3.4 Exercises; References; Chapter 4: Continuum Mechanics Foundations; 4.1 Introduction; 4.2 Classical Definitions of Stress and Strain; 4.2.1 Uniaxial Loading; 4.2.2 Multiaxial Loading; 4.3 Large Strain Kinematics; 4.4 Vector and Tensor Algebra; 4.4.1 Vector Operations; 4.4.2 The Dyadic Product; 4.4.3 Tensor Operations; 4.4.4 Derivatives of Scalar, Vector, and Tensor Fields; 4.4.5 Coordinate Transformations; 4.4.6 Invariants. 4.5 Deformation Gradient4.5.1 Eigenvalue and Spectral Decompositions; 4.6 Strain, Stretch, and Rotation; 4.7 Rates of Deformation; 4.8 Stress Tensors; 4.8.1 Stress Invariants; 4.9 Balance Laws and Field Equations; 4.9.1 Conservation of Mass; 4.9.2 Balance of Linear Momentum; 4.9.3 Balance of Angular Momentum; 4.9.4 First Law of Thermodynamics; 4.9.5 Second Law of Thermodynamics; 4.10 Energy Balance and Stress Power; 4.11 Constitutive Equations; 4.11.1 Constitutive Equations for a Thermoelastic Material; 4.12 Observer Transformation; 4.12.1 Objective Rates; 4.13 Material Symmetry. Print version record. Polymers Mechanical properties. http://id.loc.gov/authorities/subjects/sh85104669 Polymers Testing. http://id.loc.gov/authorities/subjects/sh85104674 Polymères Propriétés mécaniques. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Polymers Mechanical properties fast Polymers Testing fast has work: Mechanics of solid polymers (Text) https://id.oclc.org/worldcat/entity/E39PD39yccGQCkdDmmy6hXJ8VK https://id.oclc.org/worldcat/ontology/hasWork Print version: Bergstrom, Jorgen S. Mechanics of Solid Polymers : Theory and Computational Modeling. Burlington : Elsevier Science, ©2015 9780323311502 FWS01 ZDB-4-EBA FWS_PDA_EBA https://www.sciencedirect.com/science/book/9780323311502 Volltext FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1028648 Volltext
spellingShingle	Bergstrom, Jörgen Mechanics of solid polymers : theory and computational modeling / Front Cover; Mechanics of Solid Polymers: Theory and Computational Modeling; Copyright; Contents; Preface; Chapter 1: Introduction and Overview; 1.1 Introduction; 1.2 What Is a Polymer?; 1.3 Types of Polymers; 1.4 History of Polymers; 1.5 Polymer Manufacturing and Processing; 1.6 Polymer Mechanics; 1.7 Exercises; References; Chapter 2: Experimental Characterization Techniques; 2.1 Introduction; 2.2 Mechanical Testing for Material Model Calibration; 2.2.1 Uniaxial Compression Testing; 2.2.2 Uniaxial Tension Testing; 2.2.3 Plane Strain Tension; 2.2.4 Simple Shear Testing; 2.2.5 Impact Testing. 2.2.6 Dynamic Mechanical Analysis2.2.7 Hardness and Indentation Testing; Rockwell Hardness Testing; Shore (Durometer) Testing; Barcol Hardness Testing; Nanoindentation; 2.2.8 Split-Hopkinson Pressure Bar Testing; 2.2.9 Bulk Modulus Testing; 2.2.10 Other Common Mechanical Testing Modes; 2.2.11 Testing for Failure Model Calibration; 2.3 Mechanical Testing for Material Model Validation; 2.3.1 Material Model Verification and Validation; 2.3.2 Small Punch Testing; 2.3.3 V-Notch Shear Testing; 2.4 Surface Characterization Techniques; 2.4.1 Optical Microscopy; 2.4.2 Scanning Electron Microscopy. 2.4.3 Atomic Force Microscopy2.5 Volume Characterization Techniques; 2.5.1 Differential Scanning Calorimetry; 2.5.2 Transmission Electron Microscopy; 2.5.3 X-Ray Diffraction; Wide-Angle X-Ray Diffraction; Small-Angle X-Ray Diffraction; 2.5.4 Birefringence; 2.5.5 Swell Testing; 2.6 Chemical Characterization Techniques; 2.6.1 Fourier Transform Infrared Spectroscopy; 2.6.2 Energy Dispersive Spectroscopy; 2.6.3 Size-Exclusion Chromatography; 2.6.4 Thermogravimetric Analysis; 2.6.5 Raman Spectroscopy; 2.7 Exercises; References; Chapter 3: Finite Element Analysis as an Engineering Tool. 3.1 Introduction3.1.1 Required Inputs for FEA; 3.2 Types of FEA; 3.3 Review of Modeling Techniques; 3.3.1 Deformation Modeling; 3.3.2 Failure Modeling; 3.4 Exercises; References; Chapter 4: Continuum Mechanics Foundations; 4.1 Introduction; 4.2 Classical Definitions of Stress and Strain; 4.2.1 Uniaxial Loading; 4.2.2 Multiaxial Loading; 4.3 Large Strain Kinematics; 4.4 Vector and Tensor Algebra; 4.4.1 Vector Operations; 4.4.2 The Dyadic Product; 4.4.3 Tensor Operations; 4.4.4 Derivatives of Scalar, Vector, and Tensor Fields; 4.4.5 Coordinate Transformations; 4.4.6 Invariants. 4.5 Deformation Gradient4.5.1 Eigenvalue and Spectral Decompositions; 4.6 Strain, Stretch, and Rotation; 4.7 Rates of Deformation; 4.8 Stress Tensors; 4.8.1 Stress Invariants; 4.9 Balance Laws and Field Equations; 4.9.1 Conservation of Mass; 4.9.2 Balance of Linear Momentum; 4.9.3 Balance of Angular Momentum; 4.9.4 First Law of Thermodynamics; 4.9.5 Second Law of Thermodynamics; 4.10 Energy Balance and Stress Power; 4.11 Constitutive Equations; 4.11.1 Constitutive Equations for a Thermoelastic Material; 4.12 Observer Transformation; 4.12.1 Objective Rates; 4.13 Material Symmetry. Polymers Mechanical properties. http://id.loc.gov/authorities/subjects/sh85104669 Polymers Testing. http://id.loc.gov/authorities/subjects/sh85104674 Polymères Propriétés mécaniques. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Polymers Mechanical properties fast Polymers Testing fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85104669 http://id.loc.gov/authorities/subjects/sh85104674
title	Mechanics of solid polymers : theory and computational modeling /
title_auth	Mechanics of solid polymers : theory and computational modeling /
title_exact_search	Mechanics of solid polymers : theory and computational modeling /
title_full	Mechanics of solid polymers : theory and computational modeling / Jörgen Bergström.
title_fullStr	Mechanics of solid polymers : theory and computational modeling / Jörgen Bergström.
title_full_unstemmed	Mechanics of solid polymers : theory and computational modeling / Jörgen Bergström.
title_short	Mechanics of solid polymers :
title_sort	mechanics of solid polymers theory and computational modeling
title_sub	theory and computational modeling /
topic	Polymers Mechanical properties. http://id.loc.gov/authorities/subjects/sh85104669 Polymers Testing. http://id.loc.gov/authorities/subjects/sh85104674 Polymères Propriétés mécaniques. TECHNOLOGY & ENGINEERING Engineering (General) bisacsh TECHNOLOGY & ENGINEERING Reference. bisacsh Polymers Mechanical properties fast Polymers Testing fast
topic_facet	Polymers Mechanical properties. Polymers Testing. Polymères Propriétés mécaniques. TECHNOLOGY & ENGINEERING Engineering (General) TECHNOLOGY & ENGINEERING Reference. Polymers Mechanical properties Polymers Testing
url	https://www.sciencedirect.com/science/book/9780323311502 https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1028648
work_keys_str_mv	AT bergstromjorgen mechanicsofsolidpolymerstheoryandcomputationalmodeling

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