International audienceIn many engineering problems involving adiabatic (dynamic) conditions the temperature rise induced by plastic deformation is usually evaluated using the inelastic heat fraction. The latter is still frequently considered as a crudely determined constant value. On the other hand, experimental investigations have shown that the inelastic heat fraction depends on strain, strain rate and temperature. Employing a phenomenological double-potential, elastic/thermoviscoplastic constitutive framework, the intrinsic dissipation form and heat equation considered correspond to salient features of inelastic behaviour of a large class of solids. For some typical strain hardening/softening and thermal softening combinations encountere...
International audienceThis paper depicts one theoretical and experimental method to take into accoun...
Physical and thermodynamic concepts are used to develop a potential function for application to high...
A shakedown theory for elastic\u2013perfectly plastic structures subjected to thermomechanical loads...
International audienceIn many engineering problems involving adiabatic (dynamic) conditions the temp...
This study investigates heat generation in metals during plastic deformation. Experiments were desig...
Heat generation due to plastic deformation of metals and steel is studied. Whereas in many investiga...
The energy balance equation for elastoplastic solids includes heat source terms that govern the conv...
The conversion of plastic work to heat at high strain rates gives rise to a significant temperature ...
Heat generation in metals during high-strain-rate plastic deformation was investigated. Experiments ...
In most cases, adiabatic plastic heating is evaluated using the inelastic heat fraction coefficient,...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
This paper was the result of a cooperative research program between the University of New Mexico and...
A constitutive model for rate dependent and thermomechanically coupled plasticity at fi-nite strains...
A constitutive model for rate-dependent and thermomechanically coupled plasticity at finite strains ...
Adiabatic softening has an important impact on material behavior under dynamic loading. Temperature ...
International audienceThis paper depicts one theoretical and experimental method to take into accoun...
Physical and thermodynamic concepts are used to develop a potential function for application to high...
A shakedown theory for elastic\u2013perfectly plastic structures subjected to thermomechanical loads...
International audienceIn many engineering problems involving adiabatic (dynamic) conditions the temp...
This study investigates heat generation in metals during plastic deformation. Experiments were desig...
Heat generation due to plastic deformation of metals and steel is studied. Whereas in many investiga...
The energy balance equation for elastoplastic solids includes heat source terms that govern the conv...
The conversion of plastic work to heat at high strain rates gives rise to a significant temperature ...
Heat generation in metals during high-strain-rate plastic deformation was investigated. Experiments ...
In most cases, adiabatic plastic heating is evaluated using the inelastic heat fraction coefficient,...
NOTE: Text or symbols not renderable in plain ASCII are indicated by [...]. Abstract is included in ...
This paper was the result of a cooperative research program between the University of New Mexico and...
A constitutive model for rate dependent and thermomechanically coupled plasticity at fi-nite strains...
A constitutive model for rate-dependent and thermomechanically coupled plasticity at finite strains ...
Adiabatic softening has an important impact on material behavior under dynamic loading. Temperature ...
International audienceThis paper depicts one theoretical and experimental method to take into accoun...
Physical and thermodynamic concepts are used to develop a potential function for application to high...
A shakedown theory for elastic\u2013perfectly plastic structures subjected to thermomechanical loads...