| Foreword |
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xi | |
| Sponsors |
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xiii | |
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Unravelling the mysteries of cyclic deformation in thermoplastic elastomers |
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3 | (8) |
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The role of glassy-like polymer bridges in rubber reinforcement |
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11 | (8) |
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Elastic instabilities in rubber |
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19 | (4) |
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Mechanical characterization of rubber - Novel approaches |
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Strain-induced crystallization of natural rubber subjected to biaxial loading conditions as revealed by X-ray diffraction |
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23 | (6) |
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Effects of strain field and strain history on the natural rubber matrix |
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29 | (4) |
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Parameter identification based on multiple inhomogeneous experiments of practical relevance |
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33 | (6) |
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New insights about strain-induced crystallization of natural rubber thanks to in situ X-rays measurements during uniaxial cyclic deformation at high velocity |
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39 | (6) |
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Application of full-field measurements and numerical simulations to analyze the thermo-mechanical response of a three-branch rubber specimen |
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45 | (6) |
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Effect of thermal cycles on the kinematic field measurement at the crack tip of crystallizable natural rubber |
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51 | (6) |
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Processing heterogeneous strain fields with the virtual fields method: A new route for the mechanical characterization of elastomeric materials |
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57 | (6) |
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Energy losses at small strains in filled rubbers |
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63 | (6) |
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The mechanism of fatigue crack growth in rubbers under severe loading: The effect of stress-induced crystallization |
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69 | (8) |
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Influence of thermal ageing on mechanical properties of styrene-butadiene rubber |
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77 | (10) |
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An extended tube model for thermo-viscoelasticity of rubberlike materials: Theory and numerical implementation |
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87 | (6) |
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Characterization and identification of the memory decay rates of carbon black-filled rubber |
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93 | (6) |
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Theoretical and numerical modelling of unvulcanized rubber |
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99 | (8) |
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Thermomechanical material behaviour within the concept of representative directions |
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107 | (6) |
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Chemical ageing of elastomers: Experiments and modelling |
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113 | (6) |
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A stable hyperelastic model for foamed rubber |
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119 | (6) |
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Simulation of self-organization processes in filled rubber considering thermal agitation |
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125 | (6) |
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On finite strain models for nano-filled glassy polymers |
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131 | (6) |
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Aspects of crack propagation in small and finite strain continua |
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137 | (6) |
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Testing, modelling and validation of numerical model capable of predicting stress fields throughout polyurethane foam |
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143 | (6) |
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Comparison of two different approaches to predict rubber response at different strain rates |
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149 | (6) |
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Numerical analysis of the heterogeneous ageing of rubber products |
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155 | (6) |
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Proposal of an orthotopic hyperelastic model for fiber-reinforced rubber in the electric generator |
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161 | (6) |
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A thermo-chemo-mechanical coupled formulation, application to filled rubber |
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167 | (6) |
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Microstructural analysis of carbon black filled rubbers by atomic force microscopy and computer simulation techniques |
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173 | (4) |
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Identification of local constitutive model from micro-indentation testing |
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177 | (8) |
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Damage mechanisms in elastomers |
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A new approach to characterize the onset tearing in rubber |
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185 | (6) |
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Damage variables for the life-time prediction of rubber components |
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191 | (6) |
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Formation of crust on natural rubber after ageing |
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197 | (6) |
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Contribution of accurate thermal measurements to the characterization of the thermo-mechanical properties of rubber-like materials |
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203 | (6) |
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Nano- to macro-scale modeling of damage in filled elastomers |
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209 | (6) |
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Influence of strain induced crystallization on the mechanical behaviour of natural rubbers |
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215 | (6) |
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Tear rotation in reinforced natural rubber |
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221 | (8) |
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Stress softening and related phenomena |
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Modelling Mullins and cyclic stress-softening in filled rubbers |
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229 | (6) |
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Modelling of the Payne effect using a 3-d generalization technique for the finite element method |
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235 | (6) |
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Electromechanical hysteresis in filled elastomers |
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241 | (6) |
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Effect of the strain amplitude and the temperature on the viscoelastic properties of rubbers under fatigue loading |
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247 | (6) |
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Effect of material and mechanical parameters on the stress-softening of carbon-black filled rubbers submitted to cyclic loadings |
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253 | (6) |
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From the experimental determination of stress-strain full fields during a bulge test thanks to 3D-DIC technique to the characterization of anisotropic Mullins effect |
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259 | (6) |
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A new isotropic hyperelastic strain energy function in terms of invariants and its derivation into a pseudo-elastic model for Mullins effect: Application to finite element analysis |
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265 | (8) |
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273 | (6) |
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Evaluation of magneto-rheological elastomers for spacecrafts |
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279 | (4) |
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Coupling between diffusion of biodiesel and large deformation in rubber: Effect on the mechanical response under cyclic loading conditions |
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283 | (6) |
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Characterization and numerical study of rubber under fast depressurization |
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289 | (4) |
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Fatigue peeling of rubber |
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293 | (6) |
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Elastomer prediction method for space applications |
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299 | (8) |
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Structural optimization of a rubber bushing for automotive suspension |
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307 | (6) |
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Optimisation and characterisation of magnetorheological elastomers |
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313 | (6) |
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Marine ageing of polychloroprene rubber: Validation of accelerated protocols and static failure criteria by comparison to a 23 year old offshore export line |
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319 | (6) |
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Nanomechanics of rubber for fuel efficient tyres |
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325 | (6) |
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Fatigue and time dependent behaviour |
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Definition and use of an effective flaw size for the simulation of elastomer fatigue |
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331 | (6) |
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Determination of effective flaw size for fatigue life predictions |
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337 | (6) |
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Fatigue crack growth dynamics in filled natural rubber |
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343 | (4) |
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Heat build-up and micro-tomography measurements used to describe the fatigue mechanisms and to evaluate the fatigue lifetime of elastomers |
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347 | (6) |
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In-situ synchrotron X-ray diffraction study of strain-induced crystallization of natural rubber during fatigue tests |
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353 | (6) |
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The influence of inelasticity on the lifetime of filled elastomers under multiaxial loading conditions |
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359 | (4) |
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Time-dependence of fracture behaviour of carbon black filled natural rubber |
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363 | (6) |
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Investigations regarding environmental effects on fatigue life of natural rubber |
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369 | (6) |
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Potentials of FEA-simulation for elastomer stress softening in engineering practice |
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375 | (6) |
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On the influence of heat ageing on filled NR for automotive AVS applications |
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381 | (10) |
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Test methods and analytical techniques |
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Development of an experimental device to investigate mechanical response of rubber under simultaneous diffusion and large strain compression |
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391 | (6) |
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Determination of the behaviour of rubber components under hydrostatic pressure |
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397 | (6) |
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Creating a uniform magnetic field for the equi-biaxial physical testing of magnetorheological elastomers; electromagnet design, development and testing |
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403 | (6) |
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A method of real-time bi-axial strain control in fatigue testing of elastomers |
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409 | (6) |
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Measurement and simulation of a jumping rubber ball |
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415 | (4) |
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Swelling of bent rubber strips and recovery when the stresses are removed |
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419 | (4) |
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Experimental determination of mechanical properties of elastomeric composites reinforced by textiles made of SMA wires and numerical modelling of their behaviour |
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423 | (4) |
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Simple shearing of soft biomaterials |
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427 | (6) |
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Three-dimensional carbon black aggregate reconstruction from two orthogonal TEM images |
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433 | (6) |
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Finite element analysis and design of rubber specimen for mechanical test |
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439 | (6) |
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A new machine for accurate fatigue and crack growth analysis of rubber compounds |
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445 | (4) |
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Biaxial fracture testing of rubber compounds |
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449 | (6) |
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Dynamic analysis and test investigation on rubber anti-vibration component |
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455 | (4) |
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| Author index |
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459 | |
