We present a simple theory of crack propagation in viscoelastic solids. We calculate the energy per unit area, G(v), to propagate a crack, as a function of the crack tip velocity v. Our study includes the non-uniform temperature distribution (flash temperature) in the vicinity of the crack tip, which has a profound influence on G(v). At very low crack tip velocities, the heat produced at the crack tip can diffuse away, resulting in very small temperature increase: in this "low-speed" regime the flash temperature effect is unimportant. However, because of the low heat conductivity of rubber-like materials, already at moderate crack tip velocities a very large temperature increase (of order of 1000 K) can occur close to the crack tip. We show...
Tensile stress relaxation and stable crack growth under fixed tensile deformation over an extended r...
Abstract-This paper presents a discussion of(i) possible crack-tip parameters that may govern elasto...
The crack tip fields in amorphous glassy polymers are distinctly different from that in metals, and ...
We present a simple theory of crack propagation in viscoelastic solids. We calculate the energy per ...
We study crack propagation in rubberlike materials and show that the nonuniform temperature distribu...
International audienceWhile of paramount importance in material science, the dynamics of cracks stil...
When a crack propagates in a viscoelastic solid, energy dissipation can occur very far from the crac...
The study of thermal response in the crack tip due to crack growth is very important to study the ma...
AbstractThis paper describes the propagation of an edge crack in a structured thermoelastic solid. A...
The original publication is available at www.springerlink.comA thermo-mechanical effect from partial...
We develop a precise experimental method to measure the full-field heat-generating process near movi...
Abstract. The crack tip fields in amorphous glassy polymers are distinctly different from that in me...
We present a model for the thermally activated propagation of cracks in elastic matrices. The propag...
Tensile stress relaxation and stable crack growth under fixed tensile deformation over an extended r...
Abstract-This paper presents a discussion of(i) possible crack-tip parameters that may govern elasto...
The crack tip fields in amorphous glassy polymers are distinctly different from that in metals, and ...
We present a simple theory of crack propagation in viscoelastic solids. We calculate the energy per ...
We study crack propagation in rubberlike materials and show that the nonuniform temperature distribu...
International audienceWhile of paramount importance in material science, the dynamics of cracks stil...
When a crack propagates in a viscoelastic solid, energy dissipation can occur very far from the crac...
The study of thermal response in the crack tip due to crack growth is very important to study the ma...
AbstractThis paper describes the propagation of an edge crack in a structured thermoelastic solid. A...
The original publication is available at www.springerlink.comA thermo-mechanical effect from partial...
We develop a precise experimental method to measure the full-field heat-generating process near movi...
Abstract. The crack tip fields in amorphous glassy polymers are distinctly different from that in me...
We present a model for the thermally activated propagation of cracks in elastic matrices. The propag...
Tensile stress relaxation and stable crack growth under fixed tensile deformation over an extended r...
Abstract-This paper presents a discussion of(i) possible crack-tip parameters that may govern elasto...
The crack tip fields in amorphous glassy polymers are distinctly different from that in metals, and ...