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Fatigue crack growth in rubber mater...

Heinrich, Gert.

Fatigue crack growth in rubber materialsexperiments and modelling /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Fatigue crack growth in rubber materialsedited by Gert Heinrich, Reinhold Kipscholl, Radek Stocek.
Reminder of title:	experiments and modelling /
other author:	Heinrich, Gert.
Published:	Cham :Springer International Publishing :2021.
Description:	xii, 491 p. :ill., digital ;24 cm.
Contained By:	Springer Nature eBook
Subject:	RubberCracking.
Online resource:	https://doi.org/10.1007/978-3-030-68920-9
ISBN:	9783030689209$q(electronic bk.)

Fatigue crack growth in rubber materialsexperiments and modelling /
Fatigue crack growth in rubber materialsexperiments and modelling /[electronic resource] :edited by Gert Heinrich, Reinhold Kipscholl, Radek Stocek. - Cham :Springer International Publishing :2021. - xii, 491 p. :ill., digital ;24 cm. - Advances in polymer science,2860065-3195 ;. - Advances in polymer science ;164..

Some Revisions of Fatigue Crack Growth Characteristics of Rubber -- Determining Parametrical Functions Defining the Deformations of a Plane Strain Tensile Rubber Sample -- The effect of polyglycols on the fatigue crack growth of silica filled natural rubber -- The Fatigue Threshold of Rubber and Its Characterization Using the Cutting Method -- Critical Plane Analysis of Rubber -- Cavitation Micro-mechanisms in Silica-Filled Styrene-Butadiene Rubber Upon Fatigue and Cyclic Tensile Testing -- New Approaches to Modeling Failure and Fracture of Rubberlike Materials -- Influence of Filler Induced Cracks on the Statistical Lifetime of Rubber: A Review -- Fatigue Life Analysis of Solid Elastomer-Like Polyurethane -- Cavitation in Rubber Vulcanizates Subjected to Constrained Tensile Deformation -- Fatigue Crack Growth vs. Chip and Cut Wear of NR and NR/SBR Blend-Based Rubber Compounds -- Review on the Role of Phase Morphology and Energy Dissipation Around the Crack Tip During Fatigue Crack Propagation of Filler-Reinforced Elastomer Blends -- Methodology Used for Characterizing the Fracture and Fatigue Behavior of Thermoplastic Elastomers -- About the influence of materials parameters on the ultimate and fatigue properties of elastomers -- Influence of Plasticizers Basing on Renewable Sources on the Deformation and Fracture Behaviour of Elastomers -- Fracture and Fatigue Failure Simulation of Polymeric Material at Finite Deformation by the Phase-Field Method and the Material Force Approach -- Viscoelastic Crack Propagation: Review of Theories and Applications -- Dissipative Heating, Fatigue and Fracture Behaviour of Rubber Under Multiaxial Loading -- Determination of the Loading Mode Dependence of the Proportionality Parameter for the Tearing Energy of Embedded Flaws in Elastomers Under Multiaxial Deformations -- Microfocused Beam SAXS and WAXS Mapping at the Crack Tip and Fatigue Crack Propagation in Natural Rubber.

The book summarizes recent international research and experimental developments regarding fatigue crack growth investigations of rubber materials. It shows the progress in fundamental as well as advanced research of fracture investigation of rubber material under fatigue loading conditions, especially from the experimental point of view. However, some chapters will describe the progress in numerical modeling and physical description of fracture mechanics and cavitation phenomena in rubbers. Initiation and propagation of cracks in rubber materials are dominant phenomena which determine the lifetime of these soft rubber materials and, as a consequence, the lifetime of the corresponding final rubber parts in various fields of application. Recently, these phenomena became of great scientific interest due to the development of new experimental methods, concepts and models. Furthermore, crack phenomena have an extraordinary impact on rubber wear and abrasion of automotive tires; and understanding of crack initiation and growth in rubbers will help to support the growthing number of activities and worldwide efforts of reduction of tire wear losses and abrasion based emissions.

ISBN: 9783030689209$q(electronic bk.)

Standard No.: 10.1007/978-3-030-68920-9doiSubjects--Topical Terms:

893379
Rubber
--Cracking.

LC Class. No.: TA455.R8 / F385 2021

Dewey Class. No.: 678.4

Fatigue crack growth in rubber materialsexperiments and modelling /
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245 0 0 $a Fatigue crack growth in rubber materials $h [electronic resource] : $b experiments and modelling / $c edited by Gert Heinrich, Reinhold Kipscholl, Radek Stocek.
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505 0 $a Some Revisions of Fatigue Crack Growth Characteristics of Rubber -- Determining Parametrical Functions Defining the Deformations of a Plane Strain Tensile Rubber Sample -- The effect of polyglycols on the fatigue crack growth of silica filled natural rubber -- The Fatigue Threshold of Rubber and Its Characterization Using the Cutting Method -- Critical Plane Analysis of Rubber -- Cavitation Micro-mechanisms in Silica-Filled Styrene-Butadiene Rubber Upon Fatigue and Cyclic Tensile Testing -- New Approaches to Modeling Failure and Fracture of Rubberlike Materials -- Influence of Filler Induced Cracks on the Statistical Lifetime of Rubber: A Review -- Fatigue Life Analysis of Solid Elastomer-Like Polyurethane -- Cavitation in Rubber Vulcanizates Subjected to Constrained Tensile Deformation -- Fatigue Crack Growth vs. Chip and Cut Wear of NR and NR/SBR Blend-Based Rubber Compounds -- Review on the Role of Phase Morphology and Energy Dissipation Around the Crack Tip During Fatigue Crack Propagation of Filler-Reinforced Elastomer Blends -- Methodology Used for Characterizing the Fracture and Fatigue Behavior of Thermoplastic Elastomers -- About the influence of materials parameters on the ultimate and fatigue properties of elastomers -- Influence of Plasticizers Basing on Renewable Sources on the Deformation and Fracture Behaviour of Elastomers -- Fracture and Fatigue Failure Simulation of Polymeric Material at Finite Deformation by the Phase-Field Method and the Material Force Approach -- Viscoelastic Crack Propagation: Review of Theories and Applications -- Dissipative Heating, Fatigue and Fracture Behaviour of Rubber Under Multiaxial Loading -- Determination of the Loading Mode Dependence of the Proportionality Parameter for the Tearing Energy of Embedded Flaws in Elastomers Under Multiaxial Deformations -- Microfocused Beam SAXS and WAXS Mapping at the Crack Tip and Fatigue Crack Propagation in Natural Rubber.
520 $a The book summarizes recent international research and experimental developments regarding fatigue crack growth investigations of rubber materials. It shows the progress in fundamental as well as advanced research of fracture investigation of rubber material under fatigue loading conditions, especially from the experimental point of view. However, some chapters will describe the progress in numerical modeling and physical description of fracture mechanics and cavitation phenomena in rubbers. Initiation and propagation of cracks in rubber materials are dominant phenomena which determine the lifetime of these soft rubber materials and, as a consequence, the lifetime of the corresponding final rubber parts in various fields of application. Recently, these phenomena became of great scientific interest due to the development of new experimental methods, concepts and models. Furthermore, crack phenomena have an extraordinary impact on rubber wear and abrasion of automotive tires; and understanding of crack initiation and growth in rubbers will help to support the growthing number of activities and worldwide efforts of reduction of tire wear losses and abrasion based emissions.
650 0 $a Rubber $x Cracking. $3 893379
650 0 $a Rubber, Artificial $x Cracking. $3 893380
650 0 $a Fracture mechanics. $3 195871
650 1 4 $a Polymer Sciences. $3 273693
650 2 4 $a Physical Chemistry. $3 273698
650 2 4 $a Condensed Matter Physics. $3 376278
650 2 4 $a Characterization and Evaluation of Materials. $3 273978
700 1 $a Heinrich, Gert. $3 511476
700 1 $a Kipscholl, Reinhold. $3 893377
700 1 $a Stocek, Radek. $3 893378
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830 0 $a Advances in polymer science ; $v 164. $3 451778
856 4 0 $u https://doi.org/10.1007/978-3-030-68920-9
950 $a Chemistry and Materials Science (SpringerNature-11644)