Add to ORKGThis paper describes a simple mathematical model for one-dimensional elastoplastic wave propagation in a metal in the regime where the applied stress greatly exceeds the yield stress. Attention is focussed on the increasing ductility that occurs in the over-driven limit when the plastic wave speed approaches the elastic wave speed. Our model predicts that a plastic compression wave is unable to travel faster than the elastic wave speed, and instead splits into a compressive elastoplastic shock followed by a plastic expansion wave
AbstractWe present a mathematical model for elastoplasticity in the regime where the applied stress ...
Malzemeler genellikle yüksek deformasyon hızlarında daha iyi dayanım gösterirler. Bu çalışmada malze...
The strain-time profiles of the experiments described in Part 1 are compared with numerical solution...
This paper describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This study describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This study describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This paper describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This thesis is concerned with the mathematical modelling of elastic-plastic deformation in regimes o...
This thesis is concerned with the mathematical modelling of elastic-plastic deformation in regimes o...
We present a mathematical model for elastoplasticity in the regime where the applied stress greatly ...
We present a mathematical model for elastoplasticity in the regime where the applied stress greatly ...
Part I This section is concerned with the propagation of stress waves in metals such that the materi...
AbstractWe present a mathematical model for elastoplasticity in the regime where the applied stress ...
We present a model of metallic plastic flow suitable for numerical simulations of explosive loading ...
When a metal is subjected to extremely rapid compression, a shock wave is launched that generates di...
AbstractWe present a mathematical model for elastoplasticity in the regime where the applied stress ...
Malzemeler genellikle yüksek deformasyon hızlarında daha iyi dayanım gösterirler. Bu çalışmada malze...
The strain-time profiles of the experiments described in Part 1 are compared with numerical solution...
This paper describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This study describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This study describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This paper describes a simple mathematical model for one-dimensional elastoplastic wave propagation ...
This thesis is concerned with the mathematical modelling of elastic-plastic deformation in regimes o...
This thesis is concerned with the mathematical modelling of elastic-plastic deformation in regimes o...
We present a mathematical model for elastoplasticity in the regime where the applied stress greatly ...
We present a mathematical model for elastoplasticity in the regime where the applied stress greatly ...
Part I This section is concerned with the propagation of stress waves in metals such that the materi...
AbstractWe present a mathematical model for elastoplasticity in the regime where the applied stress ...
We present a model of metallic plastic flow suitable for numerical simulations of explosive loading ...
When a metal is subjected to extremely rapid compression, a shock wave is launched that generates di...
AbstractWe present a mathematical model for elastoplasticity in the regime where the applied stress ...
Malzemeler genellikle yüksek deformasyon hızlarında daha iyi dayanım gösterirler. Bu çalışmada malze...
The strain-time profiles of the experiments described in Part 1 are compared with numerical solution...