Add to ORKGInternational audienceWe present creep experiments on fiber composite materials with different controlled heterogeneity. All samples exhibit a power-law relaxation of the strain rate in the primary creep regime (Andrade's law) followed by a power-law acceleration up to rupture. We discover that the rupture time is proportional to the duration of the primary creep regime, showing the interplay between the two regimes and offering a method of rupture prediction. These experimental results are rationalized by a mean-field model of representative elements with nonlinear viscoelastic rheology and with a large heterogeneity of strength
We present a detailed statistical analysis of the size and temporal occurrence of burst sequences in...
International audienceThis work is devoted to the prediction of the constitutive steady-state creep ...
International audienceThis paper is devoted to the effective behavior of linear viscoelastic heterog...
International audienceWe present creep experiments on fiber composite materials with controlled hete...
We study the creep rupture of fiber composites subjected to uniaxial constant load within the framew...
International audienceStructural applications of fiber reinforced polymers are strongly dependent on...
We study the damage enhanced creep rupture of disordered materials by means of a fiber bundle model....
The statistics of fracture precursors in the creep-damage process are studied on the basis of a prop...
When submitted to a constant mechanical load, many materials display power law creep followed by flu...
Materials flow - under creep or constant loads - and, finally, fail. The prediction of sample lifeti...
Lack of long term performance data inhibits the widespread use of composites. The long-term response...
International audienceIn this paper phenomenological observations of the creep rupture under maintai...
Creep is defined as time-dependent deformation and rupture processes taking place within a material ...
We present fiber bundle models of creep rupture of fiber composites considering two different micros...
We study the creep rupture of fiber composites subjected to uniaxial constant load within the framew...
We present a detailed statistical analysis of the size and temporal occurrence of burst sequences in...
International audienceThis work is devoted to the prediction of the constitutive steady-state creep ...
International audienceThis paper is devoted to the effective behavior of linear viscoelastic heterog...
International audienceWe present creep experiments on fiber composite materials with controlled hete...
We study the creep rupture of fiber composites subjected to uniaxial constant load within the framew...
International audienceStructural applications of fiber reinforced polymers are strongly dependent on...
We study the damage enhanced creep rupture of disordered materials by means of a fiber bundle model....
The statistics of fracture precursors in the creep-damage process are studied on the basis of a prop...
When submitted to a constant mechanical load, many materials display power law creep followed by flu...
Materials flow - under creep or constant loads - and, finally, fail. The prediction of sample lifeti...
Lack of long term performance data inhibits the widespread use of composites. The long-term response...
International audienceIn this paper phenomenological observations of the creep rupture under maintai...
Creep is defined as time-dependent deformation and rupture processes taking place within a material ...
We present fiber bundle models of creep rupture of fiber composites considering two different micros...
We study the creep rupture of fiber composites subjected to uniaxial constant load within the framew...
We present a detailed statistical analysis of the size and temporal occurrence of burst sequences in...
International audienceThis work is devoted to the prediction of the constitutive steady-state creep ...
International audienceThis paper is devoted to the effective behavior of linear viscoelastic heterog...