An analysis of the thermomechanical behavior of the natural rubber is carried out by combining two quantitative imaging techniques. The digital image correlation of visible images is used to estimate the strain and then the deformation energy whereas infrared images make it possible to estimate, via the heat equation, the amounts of heat involved in the material transformation. The construction of energy balance enables us to determine the relative importance of the dissipative and thermomechanical coupling mechanisms. For low frequency and low extension ratio, the results show the famous thermoelastic inversion effect. From an energy standpoint, a competition between entropic elasticity and stress-induced crystallization/fusion mechanisms ...
International audienceThe strain-induced crystallization is generally considered to be responsible f...
This thesis presents an experimental protocol developed to perform complete energy balances during t...
Owing to their high molecular mobility, stressed rubber chains can easily change ...
Une analyse du comportement thermomécanique du caoutchouc naturel est réalisée en combinant deux tec...
Une analyse du comportement thermomécanique du caoutchouc naturel est réalisée en combinant deux tec...
Owing to their high molecular mobility, stressed rubber chains can easily change their conformation...
The thermal dependence of the mechanical behavior, coupled with the numerous thermomechanical coupli...
International audienceThis paper deals with the calorimetric analysis of deformation processes in na...
AbstractThe cyclic behavior of materials often shows stabilized hysteretic responses. The present pa...
International audienceThis paper deals with the calorimetric effects accompanying the deformation of...
International audienceThis paper deals with the calorimetric analysis of deformation processes in na...
International audienceThe deformation of solid materials is accompanied by irreversible dissipative ...
International audienceMost of phenomena involved in deformation of rubber depend on temperature and ...
International audienceStrain-induced crystallization (SIC) is responsible for the hysteresis loop ob...
International audienceThis paper investigates the mechanisms of deformation in rubber, especially st...
International audienceThe strain-induced crystallization is generally considered to be responsible f...
This thesis presents an experimental protocol developed to perform complete energy balances during t...
Owing to their high molecular mobility, stressed rubber chains can easily change ...
Une analyse du comportement thermomécanique du caoutchouc naturel est réalisée en combinant deux tec...
Une analyse du comportement thermomécanique du caoutchouc naturel est réalisée en combinant deux tec...
Owing to their high molecular mobility, stressed rubber chains can easily change their conformation...
The thermal dependence of the mechanical behavior, coupled with the numerous thermomechanical coupli...
International audienceThis paper deals with the calorimetric analysis of deformation processes in na...
AbstractThe cyclic behavior of materials often shows stabilized hysteretic responses. The present pa...
International audienceThis paper deals with the calorimetric effects accompanying the deformation of...
International audienceThis paper deals with the calorimetric analysis of deformation processes in na...
International audienceThe deformation of solid materials is accompanied by irreversible dissipative ...
International audienceMost of phenomena involved in deformation of rubber depend on temperature and ...
International audienceStrain-induced crystallization (SIC) is responsible for the hysteresis loop ob...
International audienceThis paper investigates the mechanisms of deformation in rubber, especially st...
International audienceThe strain-induced crystallization is generally considered to be responsible f...
This thesis presents an experimental protocol developed to perform complete energy balances during t...
Owing to their high molecular mobility, stressed rubber chains can easily change ...
Add to ORKG