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Fracture Mechanics and Statistical Mechanics of Reinforced Elastomeric Blends

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Feldname	Details
Vorliegende Sprache	eng
Hinweise auf parallele Ausgaben	401523128 Druckausg.: ‡Fracture mechanics and statistical mechanics of reinforced elastomeric blends
ISBN	978-3-642-37909-3
Name	Grellmann, Wolfgang
Name	Heinrich, Gert
Name ANZEIGE DER KETTE	Heinrich, Gert
Name	Kaliske, Michael
	Klüppel, Manfred
	Schneider, Konrad
	Vilgis, Thomas
T I T E L	Fracture Mechanics and Statistical Mechanics of Reinforced Elastomeric Blends
Verlagsort	Berlin ; Heidelberg
Verlag	Springer
Erscheinungsjahr	2013
Erscheinungsjahr	2013
Umfang	Online-Ressource (X, 303 p. 221 illus., 119 illus. in color, digital)
Reihe	Lecture Notes in Applied and Computational Mechanics ; 70
Reihe	Lecture notes in applied and computational mechanics
Band	70
Notiz / Fußnoten	Description based upon print version of record
Weiterer Inhalt	Preface; Contents; Rupture Dynamics of Macromolecules; 1 Introduction; 2 Single Polymer; 2.1 Non-linear Chain Dynamics; 2.2 Thermal Degradation of Unstrained Chain; 2.3 Polymer Chain at Constant Tension; 3 Bottle-Brush; 3.1 Computational Model; 3.2 Simulation Results; 4 Polymerized Membrane; 4.1 Thermal Degradation; 4.2 Constant Force; 5 Summary; References; In-Situ Structural Characterization of Rubber during Deformation and Fracture; 1 Introduction; 1.1 Introduction to Strain-Induced Crystallization in Natural Rubber; 1.2 Kinetics of Strain-Induced Crystallization; 1.3 Strain Amplification. 1.4 Filler Structure under Deformation1.5 Cavitation; 1.6 Structure-Property Relationships: Crack Propagation; 2 Experimental Section; 2.1 Materials and Sample Preparation; 2.2 Mechanical Experiments; 2.3 Synchrotron Scattering; 2.4 Scanning Electron Microscopy; 3 Crystallization under Quasistatic Load; 3.1 Characterization of Samples from Central Sample Pool; 3.2 Strain Amplification in Filled Rubbers; 3.3 Local Structure around a Crack Tip; 3.4 Crystallization under Biaxial Load; 4 Kinetics of Strain-Induced Crystallization; 4.1 Tensile Impact Experiments; 4.2 Dynamic Cyclic Experiments. 5 Filler Orientation6 Cavitation; 7 Conclusion; References; Morphology and Micro-mechanics of Filled Elastomer Blends: Impact on Dynamic Crack Propagation; 1 Introduction: Fracture Mechanics of Reinforced Elastomers; 1.1 Reinforcement of Rubber by Active Fillers; 1.2 Linear-Elastic Fracture Mechanics; 1.3 Non-linear Fracture Mechanics; 2 Experimental; 3 Dynamic Flocculation Model; 3.1 Basic Assumptions; 3.2 Parameter Fitting; 3.3 FEM Simulation of Stress Softening Close to the Crack Tip; 4 Stress Relaxation of Unfilled and Filled Elastomers; 5 Dynamic-Mechanical Analysis of Blend Morphology. 5.1 Theoretical Background5.2 Carbon Black Distribution between the Blend Phases; 6 Crack Propagation under Fatigue Conditions; 6.1 Crack Growth Rates and Morphology; 6.2 Analysis of TFA Measurements According to Paris and Erdogan; 6.3 Correlation of Microstructure Parameters with Fracture Mechanical Properties; 6.4 Dynamic Crack Growth in Rubber Blends; 7 Conclusions; References; Linking Mesoscopic and Macroscopic Aspects of Crack Propagation in Elastomers; 1 Introduction; 2 Energy Balance and Fracture-Mechanical Characterization of Elastomers; 2.1 Energy Flux Integrals. 2.2 Dissipation Rate Approach3 Viscoelastic Crack Tip Fields and Influence on Crack Propagation Behaviour; 4 Fracture Surface Analysis; 5 Modeling of Material Degradation Due to the Rupture of Polymer Chains; 6 Conclusion; References; Macroscopical Modeling and Numerical Simulation for the Characterization of Crack and Durability Properties of Particle-Reinforced Elastomers; 1 Introduction; 2 Macroscopical Material Modeling of Rubber; 2.1 Inner Structure of Elastomers; 2.2 Material Properties; 2.3 Configurations; 2.4 A Macroscopical Model for Finite Visco-Elasticity of Filled Rubber. 2.5 A Macroscopical Model for Finite Endochronic Plasticity of Filled Rubber
Titelhinweis	Druckausg.: ‡Fracture mechanics and statistical mechanics of reinforced elastomeric blends
ISBN	ISBN 978-3-642-37910-9
Klassifikation	TG
	TEC009070
	TEC021000
	*74-06
	74Rxx
	00A79
	620.1
	TA405-409.3
	QA808.2
	UV 9150
Kurzbeschreibung	Elastomers are found in many applications ranging from technology to daily life applications for example in tires, drive systems, sealings and print rollers. Dynamical operation conditions put extremely high demands on the performance and stability of these materials and their elastic and flow properties can be easily adjusted by simple manipulations on their elastic and viscous properties. However, the required service life suffers often from material damage as a result of wear processes such as abrasion and wear fatigue, mostly caused by crack formation and propagation. This book covers interdisciplinary research between physics, physical chemistry, material sciences and engineering of elastomers within the range from nanometres to millimetres and connects these aspects with the constitutive material properties. The different chapters describe reliable lifetime and durability predictions based on new fracture mechanical testing concepts and advanced material-theoretical methods which are finally implemented in the finite element method for structural simulations. The use of this approach allows a realistic description of complex geometrical and loading conditions which includes the peculiarities of the mechanical behaviour of elastomeric materials in detail. Furthermore, this approach demonstrates how multi-scale research concepts provide an ambitious interdisciplinary challenge at the interface between engineering and natural sciences. This book covers the interests of academic researchers, graduate students and professionals working in polymer science, rubber and tire technology and in materials science at the interface of academic and industrial research
1. Schlagwortkette	Elastomer
	Verbundwerkstoff
	Bruchmechanik
	Statistische Mechanik
	Aufsatzsammlung
ANZEIGE DER KETTE	Elastomer -- Verbundwerkstoff -- Bruchmechanik -- Statistische Mechanik -- Aufsatzsammlung
SWB-Titel-Idn	386843805
Signatur	Springer E-Book
Bemerkungen	Elektronischer Volltext - Campuslizenz
Elektronische Adresse	$uhttp://dx.doi.org/10.1007/978-3-642-37910-9
Internetseite / Link	Volltext
Siehe auch	Inhaltstext
Siehe auch	Volltext
Siehe auch	Cover
Siehe auch	Inhaltstext

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