Rubber: types, properties, and uses
Gespeichert in:
| Format: | Elektronisch E-Book |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
New York
Nova Science Publishers
©2011
|
| Schriftenreihe: | Materials science and technologies series
|
| Schlagworte: | |
| Online-Zugang: | FAW01 FAW02 |
| Beschreibung: | Includes bibliographical references and index ""RUBBER: TYPES, PROPERTIES AND USES""; ""LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA""; ""CONTENTS""; ""PREFACE""; ""Chapter 1: REINFORCEMENT OF RUBBER COMPOUNDS BY DIFFERENT FILLERS: RECENT ACHIEVEMENTS""; ""INTRODUCTION""; ""History""; ""Reinforcement Mechanism""; ""Filler Dispersion""; ""Carbon Black""; ""Silica""; ""Other Fillers""; ""Nanofillers""; ""REFERENCES""; ""Chapter 2: MECHANICAL BEHAVIOR OF ELASTOMERS: EXPERIMENTAL DETERMINATION AND NUMERICAL MODELING""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. MECHANICAL TESTS ON ELASTOMERS""; ""2.1. Uniaxial Test""; ""2.2. Planar Test"" ""2.3. Equibiaxial Test""""3. OPTICAL METHODS FOR STRAIN MEASUREMENT""; ""3.2. Grid Method""; ""3.3. Digital Image Correlation""; ""4. INVERSE PROCEDURES FOR MATERIAL PARAMETERS IDENTIFICATION""; ""4.1. FEM Model Updating""; ""4.2. The Virtual Fields Method""; ""5. HYPERELASTICITY""; ""5.1. Mooney-Rivlin Model""; ""5.2. Ogden Model""; ""5.3. Other Constitutive Models""; ""5.4. Models Fitting with Uniaxial and Equibiaxial Test Data""; ""5.5. Models Fitting with Generic Planar Test Data""; ""6. PSEUDO-ELASTICITY""; ""6.1. Mullins Effect""; ""6.2. Pseudo-Elasticity Basic Equations"" ""6.3. Pseudo-Elasticity with Permanent Set """"6.4. Experimental Tests and Numerical Results""; ""7. VISCO-ELASTICITY""; ""7.1. Linear Visco-Elastic Models""; ""7.2. Generalized Maxwell Model (GM)""; ""7.3. Generalized Voigt Model (GV)""; ""7.4. Fractional Derivatives Model (FDM)""; ""7.5. Experimental Tests and Models Fitting""; ""REFERENCES""; ""Chapter 3: PROPERTIES AND MECHANICAL RELIABILITY OF ELASTOMERS""; ""1. INTRODUCTION""; ""2. SOME PROPERTIES OF RUBBERS""; ""3. MECHANICAL BEHAVIOUR OF RUBBER-LIKE MATERIALS""; ""3.1. Hyperelasticity"" ""3.1.1. Constitutive Equations in the General Isotropic Case""""3.1.2. Incompressible Isotropic Case""; ""3.1.3. Free Specific Energies in the Case of an Incompressible Media""; ""3.1.3.1. Microscopic Approaches""; ""3.1.3.2. Phenomenological Model""; ""3.1.4. Anisotropic Hyperelasticity""; ""3.1.5. Compressible Media""; ""4. FRACTURE AND FATIGUE LIFE OF RUBBERS""; ""4.1. Fracture of Rubbers under Monotonic Loading""; ""4.1.1. Plane Specimens For Fracture Analysis Of Rubbers""; ""4.1.1.1. Precracked Plane Specimens""; ""4.1.1.2. Uncracked Plane Specimens"" ""4.1.2. Volumetric Specimens for Fracture Analysis of Rubbers""""4.2. Fracture of Rubbers under Cyclic Loading""; ""4.2.1. Crack Propagation Approach""; ""4.2.2. Crack Initiation Approach""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 4: SMART ELECTRIC ELASTOMER BASED ON ELECTRONIC AND IONIC OPERATIONAL MECHANISM""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. SMART ELECTRIC ELASTOMER BASED ON IONIC OPERATIONAL MECHANISM""; ""2.1. Electromechanochemical Behavior of Gelatin Hydrogel under Electric Field""; ""2.1.1. Experimental Section""; ""Materials""; ""Preparation of gelatin hydrogel"" |
| Beschreibung: | xvii, 689 pages |
| ISBN: | 1617616524 9781617616525 9781617614644 1617614645 |
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| 264 | 1 | |a New York |b Nova Science Publishers |c ©2011 | |
| 300 | |a xvii, 689 pages | ||
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| 490 | 0 | |a Materials science and technologies series | |
| 500 | |a Includes bibliographical references and index | ||
| 500 | |a ""RUBBER: TYPES, PROPERTIES AND USES""; ""LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA""; ""CONTENTS""; ""PREFACE""; ""Chapter 1: REINFORCEMENT OF RUBBER COMPOUNDS BY DIFFERENT FILLERS: RECENT ACHIEVEMENTS""; ""INTRODUCTION""; ""History""; ""Reinforcement Mechanism""; ""Filler Dispersion""; ""Carbon Black""; ""Silica""; ""Other Fillers""; ""Nanofillers""; ""REFERENCES""; ""Chapter 2: MECHANICAL BEHAVIOR OF ELASTOMERS: EXPERIMENTAL DETERMINATION AND NUMERICAL MODELING""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. MECHANICAL TESTS ON ELASTOMERS""; ""2.1. Uniaxial Test""; ""2.2. Planar Test"" | ||
| 500 | |a ""2.3. Equibiaxial Test""""3. OPTICAL METHODS FOR STRAIN MEASUREMENT""; ""3.2. Grid Method""; ""3.3. Digital Image Correlation""; ""4. INVERSE PROCEDURES FOR MATERIAL PARAMETERS IDENTIFICATION""; ""4.1. FEM Model Updating""; ""4.2. The Virtual Fields Method""; ""5. HYPERELASTICITY""; ""5.1. Mooney-Rivlin Model""; ""5.2. Ogden Model""; ""5.3. Other Constitutive Models""; ""5.4. Models Fitting with Uniaxial and Equibiaxial Test Data""; ""5.5. Models Fitting with Generic Planar Test Data""; ""6. PSEUDO-ELASTICITY""; ""6.1. Mullins Effect""; ""6.2. Pseudo-Elasticity Basic Equations"" | ||
| 500 | |a ""6.3. Pseudo-Elasticity with Permanent Set """"6.4. Experimental Tests and Numerical Results""; ""7. VISCO-ELASTICITY""; ""7.1. Linear Visco-Elastic Models""; ""7.2. Generalized Maxwell Model (GM)""; ""7.3. Generalized Voigt Model (GV)""; ""7.4. Fractional Derivatives Model (FDM)""; ""7.5. Experimental Tests and Models Fitting""; ""REFERENCES""; ""Chapter 3: PROPERTIES AND MECHANICAL RELIABILITY OF ELASTOMERS""; ""1. INTRODUCTION""; ""2. SOME PROPERTIES OF RUBBERS""; ""3. MECHANICAL BEHAVIOUR OF RUBBER-LIKE MATERIALS""; ""3.1. Hyperelasticity"" | ||
| 500 | |a ""3.1.1. Constitutive Equations in the General Isotropic Case""""3.1.2. Incompressible Isotropic Case""; ""3.1.3. Free Specific Energies in the Case of an Incompressible Media""; ""3.1.3.1. Microscopic Approaches""; ""3.1.3.2. Phenomenological Model""; ""3.1.4. Anisotropic Hyperelasticity""; ""3.1.5. Compressible Media""; ""4. FRACTURE AND FATIGUE LIFE OF RUBBERS""; ""4.1. Fracture of Rubbers under Monotonic Loading""; ""4.1.1. Plane Specimens For Fracture Analysis Of Rubbers""; ""4.1.1.1. Precracked Plane Specimens""; ""4.1.1.2. Uncracked Plane Specimens"" | ||
| 500 | |a ""4.1.2. Volumetric Specimens for Fracture Analysis of Rubbers""""4.2. Fracture of Rubbers under Cyclic Loading""; ""4.2.1. Crack Propagation Approach""; ""4.2.2. Crack Initiation Approach""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 4: SMART ELECTRIC ELASTOMER BASED ON ELECTRONIC AND IONIC OPERATIONAL MECHANISM""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. SMART ELECTRIC ELASTOMER BASED ON IONIC OPERATIONAL MECHANISM""; ""2.1. Electromechanochemical Behavior of Gelatin Hydrogel under Electric Field""; ""2.1.1. Experimental Section""; ""Materials""; ""Preparation of gelatin hydrogel"" | ||
| 650 | 7 | |a TECHNOLOGY & ENGINEERING / Material Science |2 bisacsh | |
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| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
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| id | DE-604.BV043774723 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:34:45Z |
| institution | BVB |
| isbn | 1617616524 9781617616525 9781617614644 1617614645 |
| language | English |
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| physical | xvii, 689 pages |
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| series2 | Materials science and technologies series |
| spelling | Rubber types, properties, and uses Gabriel A. Popa, editor New York Nova Science Publishers ©2011 xvii, 689 pages txt rdacontent c rdamedia cr rdacarrier Materials science and technologies series Includes bibliographical references and index ""RUBBER: TYPES, PROPERTIES AND USES""; ""LIBRARY OF CONGRESS CATALOGING-IN-PUBLICATION DATA""; ""CONTENTS""; ""PREFACE""; ""Chapter 1: REINFORCEMENT OF RUBBER COMPOUNDS BY DIFFERENT FILLERS: RECENT ACHIEVEMENTS""; ""INTRODUCTION""; ""History""; ""Reinforcement Mechanism""; ""Filler Dispersion""; ""Carbon Black""; ""Silica""; ""Other Fillers""; ""Nanofillers""; ""REFERENCES""; ""Chapter 2: MECHANICAL BEHAVIOR OF ELASTOMERS: EXPERIMENTAL DETERMINATION AND NUMERICAL MODELING""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. MECHANICAL TESTS ON ELASTOMERS""; ""2.1. Uniaxial Test""; ""2.2. Planar Test"" ""2.3. Equibiaxial Test""""3. OPTICAL METHODS FOR STRAIN MEASUREMENT""; ""3.2. Grid Method""; ""3.3. Digital Image Correlation""; ""4. INVERSE PROCEDURES FOR MATERIAL PARAMETERS IDENTIFICATION""; ""4.1. FEM Model Updating""; ""4.2. The Virtual Fields Method""; ""5. HYPERELASTICITY""; ""5.1. Mooney-Rivlin Model""; ""5.2. Ogden Model""; ""5.3. Other Constitutive Models""; ""5.4. Models Fitting with Uniaxial and Equibiaxial Test Data""; ""5.5. Models Fitting with Generic Planar Test Data""; ""6. PSEUDO-ELASTICITY""; ""6.1. Mullins Effect""; ""6.2. Pseudo-Elasticity Basic Equations"" ""6.3. Pseudo-Elasticity with Permanent Set """"6.4. Experimental Tests and Numerical Results""; ""7. VISCO-ELASTICITY""; ""7.1. Linear Visco-Elastic Models""; ""7.2. Generalized Maxwell Model (GM)""; ""7.3. Generalized Voigt Model (GV)""; ""7.4. Fractional Derivatives Model (FDM)""; ""7.5. Experimental Tests and Models Fitting""; ""REFERENCES""; ""Chapter 3: PROPERTIES AND MECHANICAL RELIABILITY OF ELASTOMERS""; ""1. INTRODUCTION""; ""2. SOME PROPERTIES OF RUBBERS""; ""3. MECHANICAL BEHAVIOUR OF RUBBER-LIKE MATERIALS""; ""3.1. Hyperelasticity"" ""3.1.1. Constitutive Equations in the General Isotropic Case""""3.1.2. Incompressible Isotropic Case""; ""3.1.3. Free Specific Energies in the Case of an Incompressible Media""; ""3.1.3.1. Microscopic Approaches""; ""3.1.3.2. Phenomenological Model""; ""3.1.4. Anisotropic Hyperelasticity""; ""3.1.5. Compressible Media""; ""4. FRACTURE AND FATIGUE LIFE OF RUBBERS""; ""4.1. Fracture of Rubbers under Monotonic Loading""; ""4.1.1. Plane Specimens For Fracture Analysis Of Rubbers""; ""4.1.1.1. Precracked Plane Specimens""; ""4.1.1.2. Uncracked Plane Specimens"" ""4.1.2. Volumetric Specimens for Fracture Analysis of Rubbers""""4.2. Fracture of Rubbers under Cyclic Loading""; ""4.2.1. Crack Propagation Approach""; ""4.2.2. Crack Initiation Approach""; ""CONCLUSION""; ""REFERENCES""; ""Chapter 4: SMART ELECTRIC ELASTOMER BASED ON ELECTRONIC AND IONIC OPERATIONAL MECHANISM""; ""ABSTRACT""; ""1. INTRODUCTION""; ""2. SMART ELECTRIC ELASTOMER BASED ON IONIC OPERATIONAL MECHANISM""; ""2.1. Electromechanochemical Behavior of Gelatin Hydrogel under Electric Field""; ""2.1.1. Experimental Section""; ""Materials""; ""Preparation of gelatin hydrogel"" TECHNOLOGY & ENGINEERING / Material Science bisacsh Rubber fast Latex Rubber Popa, Gabriel A. Sonstige oth |
| spellingShingle | Rubber types, properties, and uses TECHNOLOGY & ENGINEERING / Material Science bisacsh Rubber fast Latex Rubber |
| title | Rubber types, properties, and uses |
| title_auth | Rubber types, properties, and uses |
| title_exact_search | Rubber types, properties, and uses |
| title_full | Rubber types, properties, and uses Gabriel A. Popa, editor |
| title_fullStr | Rubber types, properties, and uses Gabriel A. Popa, editor |
| title_full_unstemmed | Rubber types, properties, and uses Gabriel A. Popa, editor |
| title_short | Rubber |
| title_sort | rubber types properties and uses |
| title_sub | types, properties, and uses |
| topic | TECHNOLOGY & ENGINEERING / Material Science bisacsh Rubber fast Latex Rubber |
| topic_facet | TECHNOLOGY & ENGINEERING / Material Science Rubber Latex |
| work_keys_str_mv | AT popagabriela rubbertypespropertiesanduses |