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Constitutive Models for Rubber VI
DOI link for Constitutive Models for Rubber VI
Constitutive Models for Rubber VI book
Constitutive Models for Rubber VI
DOI link for Constitutive Models for Rubber VI
Constitutive Models for Rubber VI book
Edited ByGert Heinrich, Michael Kaliske, Alexander Lion, Stefanie Reese
Edition 1st Edition
First Published 2009
eBook Published 1 September 2009
Pub. Location London
Imprint CRC Press
Pages 534
eBook ISBN 9780429206597
Subjects Engineering & Technology, Physical Sciences
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Heinrich, G., Kaliske, M., Lion, A., & Reese, S. (Eds.). (2009). Constitutive Models for Rubber VI (1st ed.). CRC Press. https://doi.org/10.1201/NOE0415563277
ABSTRACT
Recent developments in order to represent the material behaviour of filler-reinforced elastomers under realistic operating conditions are collected in this volume. Special topics are finite element simulations and methods, dynamic material properties, experimental characterization, lifetime prediction, friction, multiphysics and biomechanics, reinf
TABLE OF CONTENTS
part |2 pages
Ageing
chapter |6 pages
Accelerated ageing of polychloroprene for marine applications
ByV. Le Saux, Y. Marco, S. Calloch, P.Y. Le Gac & N. Ait Hocine
chapter |6 pages
Consideration of environmental influences on fatigue tests of elastomer components
ByJ. Spreckels, U. Weltin, M. Flamm & T. Steinweger
chapter |4 pages
Fatigue life prediction of aged natural rubber material
ByC.S. Woo, W.D. Kim, B.I. Choi, H.S. Park, S.H. Lee & H.C. Cho
part |2 pages
Computational methods FEM implementation
chapter |6 pages
FE-Implementation of the concept of representative directions
ByM. Freund & J. Ihlemann
chapter |6 pages
Numerical prediction of mechanical behavior of single walled carbon nanotube/rubber composites
ByS.K. Georgantzinos, G.I. Giannopoulos, N.K. Anifantis & P.A. Kakavas
chapter |6 pages
Ansys user defined material implementation of van der Waals model
Heramb Shashikant Pathak
ByH.S. Pathak
chapter |8 pages
Filler-reinforced rubber under transient and cyclic loadings: Constitutive modeling and FEM-implementation for time domain simulations
ByM. Rendek & A. Lion
chapter |6 pages
A computational contact model for nanoscale rubber adhesion
Roger A. Sauer
ByR.A. Sauer
part |2 pages
Continuum mechanical models
chapter |6 pages
Permanent and voluminal strain induced by isotropic ductile damage formulation in forming processes of filled-elastomer materials
ByR. Figueredo & A. Cherouat
chapter |4 pages
An approach to the continuum description of the behavior of particulate elastomeric composites
ByL.A. Golotina & L.L. Kozhevnikova
chapter |6 pages
A phenomenological finite strain framework for the simulation of elastic polymer curing
ByM. Hossain, G. Possart & P. Steinmann
chapter |6 pages
Experimental and theoretical investigations of the viscoelastic behaviour of cellular rubber
Nadine Koprowski, Michael Johlitz & Stefan Diebels
ByN. Koprowski, M. Johlitz & S. Diebels
part |2 pages
A micro-sphere model for rubbery polymers with continuously evolving chain—ODF
chapter |6 pages
Algorithm of constant definition for a visco-elastic rubber model based on cyclic experiments, stress relaxation and creep data
ByA.G. Pelevin, B. Lauke, G. Heinrich, A.L. Svistkov & A.A. Adamov
chapter |6 pages
Structural-phenomenological modelling of softening and recovery of mechanical properties of elastomer nanocomposite
ByA.L. Svistkov, A.G. Pelevin, A.A. Adamov, B. Lauke & G. Heinrich
chapter |6 pages
A phenomenological model for the material behaviour of elastomers due to multi network chains
Christian Ziegler
ByC. Ziegler
part |2 pages
Dynamic properties and vibration
chapter |6 pages
An experimental study of magneto-sensitive natural rubber components applied in a vibration isolation system
ByA. Alberdi, N. Gil-Negrete, F.J. Nieto & L. Kari
chapter |6 pages
Representation of dynamic elastomer behavior with focus on amplitude dependency
Herbert Baaser & Guido Hohmann
ByH. Baaser & G. Hohmann
chapter |6 pages
Simulation of self-heating of dynamically loaded elastomer components
Volkmar Mehling & Herbert Baaser
ByV. Mehling & H. Baaser
chapter |6 pages
Efficient dynamic modeling of rolling tyre tread blocks
ByP. Moldenhauer & M. Kröger
chapter |6 pages
Fitting a viscoplastic time-domain model to equivalent viscoelastic materials data
ByA.H. Muhr
chapter |6 pages
On the modelling of the frequency dependence of the material behaviour of elastomers with emphasis on the coefficient of thermal expansion
ByJ. Peters, O. von Estorff & M. Achenbach
chapter |6 pages
Experimental determination of the mechanical properties of naturally aged rubber
ByI. Petrikova & B. Marvalová
chapter |4 pages
Modelling and simulation of dynamically loaded elastomer-mounts under predeformation
ByJ. Retka & A. Lion
chapter |6 pages
The visco-elastic behaviour of elastomers at large pre-strains
ByN. Suphadon, A.G. Thomas & J.J.C. Busfield
part |2 pages
Experiments and characterisation
chapter |6 pages
Dynamic characterization of elastomers using impact testing
ByP.-E. Austrell & A.K. Olsson
chapter |6 pages
Dynamic mechanical analysis of prestrained highly-filled elastomers
ByA. Azoug, R.M. Pradeilles-Duval, A. Constantinescu & R. Nevière
chapter |8 pages
Influence of temperature on durability behavior of carbon black filled natural rubber
ByP. Charrier, T. Ramade, D. Taveau, Y. Marco & S. Calloch
chapter |6 pages
Multi-axial viscoelastic deformation of carbon-black filled EPDM rubber
D.S.A. De Focatiis F. Abraham
ByD.S.A. De Focatiis, F. Abraham & C.P. Buckley
chapter |6 pages
Mechanical characterization of rubber from one heterogeneous test
ByT. Guélon, E. Toussaint & J.-B. Le Cam
chapter |6 pages
Experimental characterization and parameter identification of inelastic effects in filled rubber materials
ByS. Hoffmann, M. André, T. Schmidt & E. Haberstroh
chapter |6 pages
Flocculation kinetics in the light of jamming physics: New insights into the Payne-effect in filled rubbers
Sven Richter, Marina Saphiannikova & Gert Heinrich
ByS. Richter, M. Saphiannikova & G. Heinrich
chapter |4 pages
Mechanical and structural characterization of rubber under one-, two-and three-dimensional load
ByK. Schneider & A. Schöne
chapter |6 pages
Stress relaxation behaviors of filled rubbers under various deformations
ByT. Tada, T. Mabuchi, K. Muraoka, K. Urayama & T. Takigawa
part |2 pages
Fatigue and lifetime
chapter |6 pages
Beyond Miner’s rule for the fatigue of elastomers: Experiments and modelling
Audrey Jardin Jean-Baptiste Leblond
ByA. Jardin, J.-B. Leblond & D. Berghezan
chapter |6 pages
Constitutive and numerical modeling of the fatigue behavior of a filled rubber
J. Grandcoin A. Boukamel
ByJ. Grandcoin, A. Boukamel & S. Lejeunes
chapter |6 pages
Lifetime prediction of rubber products under simple-shear loads with rotary axes
ByR. Klauke, T. Alshuth & J. Ihlemann
chapter |8 pages
Rubber component fatigue life evaluation based on FE-modelling and material testing
R. Lillbacka E. Johnson
ByR. Lillbacka, E. Johnson & M. Bellander
chapter |6 pages
Fatigue design and test on Chevron rubber springs used in rail vehicles
ByR.K. Luo, W.J. Mortel, A.D. Spinks & X.P. Wu
chapter |6 pages
Towards a new fatigue life characterization based on heat build-up measurements?
Y. Marco, V. Le Saux, S. Calloch & C. Doudard P. Charrier
ByY. Marco, V. Le Saux, S. Calloch, C. Doudard, P. Charrier & N. Ait Hocine
chapter |6 pages
The effect of pre-stressing on the equi-biaxial fatigue life of EPDM
N. Murphy J. Hanley
ByN. Murphy, J. Hanley & S. Jerrams
chapter |4 pages
Extended Wöhler curve to predict fatigue life of elastomeric components
ByM. Rabkin & Th. Brüger
chapter |6 pages
Hyperelasticity with volumetric damage
E. Verron G. Chagnon
ByE. Verron, G. Chagnon & J.-B. Le Cam
part |2 pages
Friction
chapter |6 pages
Wet and dry friction of elastomers in advanced simulation compared to experiment
ByL. Busse & M. Klüppel
chapter |4 pages
Compression of rubber disks between frictional surfaces
ByA.N. Gent, F.M. Discenzo & J.B. Suh
chapter |6 pages
The mechanics of sliding friction between a rigid indenter and a rubber surface
ByP. Gabriel, Y. Fukahori, A.G. Thomas & J.J.C. Busfield
part |2 pages
Fracture and crack propagation
chapter |6 pages
Energy release rate of small cracks under finite multiaxial straining
ByM. Aït-Bachir, E. Verron & W.V. Mars
chapter |6 pages
In-situ SEM study of fatigue crack growth mechanism in carbon black-filled natural rubber
ByS. Beurrot, B. Huneau & E. Verron
chapter |6 pages
Applying infrared thermography to determine heat sources at the crack tip of rubber specimens
ByJ.B. Le Cam, X. Balandraud, M. Grédiac, M.P. Moutrille & T. Pottier
chapter |6 pages
Structural influence on crack propagation behaviour in elastomeric materials
ByT. Horst & G. Heinrich
chapter |8 pages
Discrete modelling of fracture processes in rubber material
Christiane Morgner, Michael Kaliske & Gordon Geißler
ByC. Morgner, M. Kaliske & G. Geißler
chapter |6 pages
The influence of the test properties on dynamic crack propagation in filled rubbers by simultaneous tensile- and pure-shear-mode testing
ByR. Stoček, G. Heinrich & M. Gehde
part |2 pages
Industrial applications
chapter |8 pages
Appraisal of nonlinear plasticity models for filled rubber using benchmark tests
H.R. Ahmadi & A.H. Muhr T. Dalrymple
ByH.R. Ahmadi, A.H. Muhr, T. Dalrymple & S. Govindarajan
chapter |4 pages
Temperature dependence of midsole materials
ByK. Brückner, S. Odenwald & J. Heidenfelder
chapter |6 pages
Investigation on the optimal specimen design for planar-biaxial materials testing of soft materials
ByJ. Helfenstein, M. Hollenstein & E. Mazza
chapter |6 pages
Effect of plate technology and orientation on flexographic line deformation
ByT.V. Korochkina, J.A. Cherry, T.C. Claypole & D.T. Gethin
chapter |6 pages
Thermo-mechanical finite element analysis of a viscoelastic model
ByA. Matsuda, Y. Mizutani & H. Shinkai
part |2 pages
Micro- and macromechanical approaches
chapter |8 pages
A micro-continuum-mechanical material model for failure of rubber-like materials
Hüsnü Dal & Michael Kaliske Lutz Nasdala
ByH. Dal, M. Kaliske & L. Nasdala
chapter |4 pages
Meso-scopic 3D-finite element analysis of filled elastomer
Keizo Akutagawa, Satoshi Hamatani & Hisashi Heguri
ByK. Akutagawa, S. Hamatani & H. Heguri
chapter |4 pages
Changes in the orientation state of polymer molecules in the space between filler particles
ByL.A. Komar, A.L. Svistkov, G. Heinrich & B. Lauke
chapter |6 pages
Modelling the effects of various contents of fillers on the relaxation rate of filled rubbers
ByL. Laiarinandrasana, A. Jean, D. Jeulin & S. Forest
chapter |6 pages
A microstructure-based model of the stress-strain behaviour of filled elastomers
ByH. Lorenz & M. Klüppel
chapter |6 pages
A multiscale approach to model the mechanical behaviour of heterogeneous hyperelastic membranes
ByL. Meunier, L. Orgéas, G. Chagnon & D. Favier
chapter |6 pages
Dynamic mechanical properties of strongly stretched polymer chains and networks: Different molecular models
V. Toshchevikov G. Heinrich
ByV. Toshchevikov, G. Heinrich & Yu. Gotlib
part |2 pages
Multiphics and biomechanics
chapter |6 pages
A direction dependent approach to the modeling of shape memory polymers
ByM. Böl & S. Reese
chapter |4 pages
Modeling of myocardial splitting due to deep penetration
Caroline Forsell & T. Christian Gasser
ByC. Forsell & T.C. Gasser
chapter |6 pages
Magnetoelastic anisotropic elastomers in a static magnetic field: Constitutive equations and FEM solutions
ByH.S. Tuan & B. Marvalová
chapter |6 pages
Identification of strain energy function for magneto elastomer from pseudo pure shear test under the variance of magnetic field
S. Ishikawa F. Tsumori
ByS. Ishikawa, F. Tsumori & H. Kotera
chapter |6 pages
Experiment and material model for soft tissue materials
ByM. Staat, S. Sponagel & N.H. Nguyê˜n
part |2 pages
Reinforcement
chapter |4 pages
Quantitative structural analysis of filled rubber by AFM
ByI. Morozov, B. Lauke & G. Heinrich
chapter |12 pages
Role of the interphase on reinforcement of filled rubbers: Influence of temperature, carbon black content and strain
ByA. Robisson & B. Chartier
chapter |6 pages
Non-linear elastic behavior of carbon black filler aggregates in rubber-like elastomers
Roozbeh Dargazany & Mikhail Itskov
ByR. Dargazany & M. Itskov
part |2 pages
Stress softening
chapter |8 pages
Temperature dependence of Mullins softening-healing phenomena: An outline for theoretical description based on experiments
ByA.F.M.S. Amin & A. Lion
chapter |6 pages
A micro-mechanical model for the anisotropic Mullins effect in filled rubber-like elastomers
Roozbeh Dargazany, Mikhail Itskov & Georg Weinhold
ByR. Dargazany, M. Itskov & G. Weinhold
chapter |6 pages
Experimental observation of induced anisotropy of the Mullins effect in particle-reinforced silicone rubber
ByG. Machado, G. Chagnon & D. Favier
