Table of contents

1. Cover Page
2. Halftitle Page
3. Title Page
4. Copyright Page
5. Table of contents
6. Foreword
7. Foreword (Volume 1)
8. Sponsors
9. Invited papers
10. Prediction of fatigue cracks orientation in elastomers with configurational stresses
11. Magneto-sensitive elastomers-theory and applications
12. Evaluation of rubber suspension in rail vehicles-a multi functional solution?
13. Ageing
14. Oxidation effect on fracture properties of rubbers
15. Ageing under preload
16. Modelling naturally aged NR mouldings
17. Chemomechanically coupled finite element simulations of oxidative ageing in elastomeric components
18. Influence of the filler-matrix interface on ageing by γ-radiation of ATH filled EPDM
19. Friction and abrasion
20. Hysteresis and adhesion friction of carbon based elastomer nanocomposites: Theory, experiment and applications
21. Effect of the blade sharpness on the blade abrasion of rubber
22. Adhesion
23. Adhesion effects in the contact between rubber and counterpart
24. Swelling
25. Effect of multiaxial mechanical loading on the swelling of rubber in biodiesel
26. Continuum mechanical models and numerical implementation
27. On the dynamic material behaviour of filled rubber with respect to preload and frequency
28. Parallel rheological framework to model non-linear viscoelasticity, permanent set, and Mullins effect in elastomers
29. Modelling of the mechanical properties of rubber compounds using a two-level structural-phenomenological model
30. Modelling of hysteresis by means of a directional approach
31. Development of constitutive equation of filled silicone architectured membrane
32. Finite thermoviscoelastic behaviour of elastomers-Experiments, modelling and FE simulation
33. Thermo-mechanical analysis of steady state rolling tires by numerical simulation and experiment
34. Thermo-visco-hyperelastic modeling of the rubber self-heating under fatigue
35. Experimental and constitutive modeling of a filled rubber with emphasis on the dynamical properties
36. Influence of viscoelasticity on the response of rubber under tensile wave propagation
37. On the efficient finite element modelling of cord-rubber composites
38. Biodegradable polymers-a new modelling approach
39. Experimental characterization of cyclic stress-strain response and its modeling for filled SBR vulcanizates
40. Finite element modelisation of multiaxial mechanical and fatigue behavior of a polychloroprene rubber
41. Instrumented micro-hardness measurements used to identify the local visco-hyper-elastic parameters of Polyurethane elastomers
42. A Multiscale continuum damage model for cavity growth in rubberlike materials
43. Identification of inelastic material parameters using component-oriented specimen
44. Hyperelasticity
45. The energy limiters approach to modeling failure of rubber
46. A strain energy function for rubber-like materials
47. Proposal of an anisotropic hyperelastic model considering cyclic deformation
48. Unified model for Mullins effect and high cycle fatigue life prediction of rubber materials
49. Hyperelastic constants from a modified hardness test using energy balance obtained from FE-analysis
50. Testing and validation of finite element modeling for silicone based elastomeric foam materials
51. Toward a hyperelastic model for foamed rubber with matrix compressibility and pore gas effects
52. Application of homogenization FEM analysis to microcellular rubbers
53. Micro-mechanical approaches
54. Micro-mechanical model of strain-induced crystallization for filled natural rubbers
55. Elasticity of colloidal clusters with application to carbon-black aggregates in filled rubbers
56. Modeling of the behavior of elastomers filled by rigid particles with interfacial layers
57. Finite element based micro-mechanical modeling of micro-structure morphology in filler reinforced elastomer
58. The role of the rubber-filler interphase in linear viscoelasticity of SBRs filled with carbon-black nano-size particles
59. Rupture of filler-filler bonds in strained elastomers: A molecular dynamics investigation
60. A microstructure-based model for filled elastomers including time-dependent effects
61. A nano-mechanical model for energy dissipation in filler networks
62. Impact of elastomer microstructure on the local mobility in linear regime
63. Coarse-grained modeling of filler concentration and structure in reinforced rubbers
64. Modeling large amplitude oscillatory shear in filled elastomers
65. Fracture, fatigue and lifetime prediction
66. Fracture behavior of rubber-like materials under classical Fatigue Crack Growth vs. Chip & Cut analysis
67. Mechanical characterization of carbon black filled NR/BR compounds from small strains up to fracture
68. Phase field modeling of fracture in rubbery polymers
69. Influence of strain-induced crystallization on the crack driving force in fracture behavior of rubber
70. Effect of strain-induced crystallization on fatigue crack growth resistance of natural rubber
71. Loss of stiffness during fatigue and the development of crack precursors
72. Fatigue crack propagation in reinforced natural rubber
73. Towards an accurate description of the dissipation gradients at the micro-scale to describe the basic fatigue mechanisms
74. Influence of cyclic softening on the energy release rate of an edge crack under simple tension
75. Evaluation of the tearing energy in a radial tyre
76. The equi-biaxial fatigue characteristics of EPDM under true (Cauchy) stress control conditions
77. Contributions of IR thermography and X-ray tomography to the fatigue characterization of elastomeric materials
78. Fatigue damage in carbon black filled natural rubber investigated by X-ray microtomography and scanning electron microscopy
79. Study of fatigue behavior of rubber like materials with infrared thermography methods
80. Lifetime prediction-a unification of the fracture mechanics and the Wöhler concept
81. Mullins effect
82. Understanding and modelling the Mullins softening from a mechanical point of view
83. Modelling deformation-induced anisotropy using 1D-laws for Mullins-Effect
84. Simulation of self-organization processes in filled rubber and their influence on anisotropic Mullins effect
85. Experimental investigation of the Mullins effect in swollen elastomers
86. Modeling the Mullins effect in swollen rubber
87. Experimental results of high damping rubber under combined compression and cyclic shear
88. Strain induced crystallization
89. Short-time behavior of strain-induced crystallization in natural rubber
90. Strain-induced crystallization in natural rubber: Kinetics and strain relaxation
91. Micro-sphere model for strain-induced crystallization in rubber
92. Strain-induced crystallization in natural rubber: A model for the microstructural evolution
93. In situ WAXS dynamic study of strain induced crystallization kinetics of synthetic and natural rubber
94. Strain-induced crystallites and temperature-induced crystallites in poly-isoprene by 2D WAXD simulating analysis
95. Characterization of high cis-content polybutadiene compounds differing in cis-content and molecular weight distribution
96. Thermal effects
97. On the evolution of the viscoelastic properties and their microstructural origin in a filled NBR under coupled thermal and cyclic mechanical loadings
98. Thermal effects accompanying the deformation of natural rubber
99. Effects of temperature on the mechanical behavior of filled and unfilled silicone rubbers
100. Thermal response of hyperelastic materials under cyclic loading conditions: Specificities and consequences for fatigue
101. Filler effects on the thermomechanical response of stretched rubbers
102. Characterization of heat sources due to deformation in unfilled natural rubber
103. Reinforcement and vulcanization
104. Discriminating reinforcement and strain amplification effects in reinforced natural rubber elastomers
105. Mldboxstart, simulations for 3D modelling of rubber reinforcement
106. The reinforcement effects of graphene oxide nanoplatelets on the mechanical and viscoelastic properties of natural rubber
107. Evolution of elastomers network structures during the vulcanization process as investigated by 1 H low-field multiple-quantum NMR
108. The effect of fillers on crosslinking, swelling and mechanical properties of peroxide-cured rubbers
109. Chemical modification of conventional rubbers for advanced applications
110. Synthetic layered silicates as synergistic filler additive for tire tread compounds
111. Design and applications
112. Characterization of elastomers under simultaneous tension and torsion for application to engine mounts
113. Viscoelastic characterization at low temperature on an HNBR compound for sealing applications
114. A methodology for the linearization of rubber models subjected to random excitation for frequency domain simulations
115. A model for polymer gels based on the theory of rubber elasticityApplication to the nucleus pulposus of the intervertebral disc
116. Stress-based viscoelastic master curve construction of model tire tread compounds
117. Rubber characterization for tire modeling
118. Evaluation of characteristics for chevron rubber spring
119. Anti-vibration HD unit assembly simulation and benchmark of effective usage of CPU in rubber FEA
120. Modelling of cord-rubber composites of bellow air-springs
121. Contact analysis of hollow rubber ball
122. Experimental evaluation of mechanical properties of belt conveyor with textile reinforcement and numerical simulation of its behaviour
123. Inflation test of orthotropic composite membrane with rubber matrix reinforced by plain weave fabric
124. Experimental and numerical analysis of indentation on a thermoplastic polyurethane elastomer under cyclic loading
125. Prediction of elastomer end-stops in non-linear isolators for space applications
126. Magneto-sensitive, ionic and electro-active elastomers
127. Linear viscoelastic behaviour of magnetorheological elastomers
128. Generating a variable uniform magnetic field suitable for fatigue testing magnetorheological elastomers using the bubble inflation method
129. Realistic fatigue life prediction for magnetorheological elastomers
130. The effect of microstructure on the dynamic equi-biaxial fatigue behaviour of magnetorheological elastomers
131. Development of ionic elastomers with shape memory effect
132. Electroactive soft polyurethanes used as a smart rubbers
133. Dielectric elastomer actuators for tuneable optics
134. Electrical breakdown of dielectric elastomer actuator materials
135. The application of a carbon black filled elastomer to create a smart strain sensor
136. Author index