The uniaxial strain compression test, also referred to as isentropic compression experiment, was analyzed using a simple basically analytical model. It accounts for the compression under prescribed loading rate of a single phase elastic, elastic-perfectly plastic, or elastic-viscoplastic material. In each case, stresses, elastic and plastic strain rates, as well as the kinetic, elastic, and plastic powers, were derived and compared
A prototype of a new concept for intermediate strain rate compression testing is presented. The conc...
ABSTRACT—Part I of this work addressed quasi-static load-ing of the shear compression specimen (SCS)...
Full range constant strain rate tests are required for accurately characterizing initial yield point...
Isentropic compression experiments (ICE) are a way of obtaining equation of state information for me...
A long-standing goal of the equation of state (EOS) community has been the development of a loading ...
This thesis is concerned with the mathematical modelling of elastic-plastic deformation in regimes o...
Several new techniques for high-pressure (quasi-) isentropic compression of materials are becoming a...
This paper provides a brief review of experimental techniques for producing dynamic isentropic compr...
The material behavior at high strain rate (> 104 s-1) and large strain (> 50 %) is unattainable with...
Shock loading techniques are often used to determine material response along a specific pressure loa...
Abstract: The material behavior at high strain rate (> lo4 s-') and large strain (> 50 %)...
It is well established that measurements of the dynamic mechanical response of materials are suscept...
Using strain controlled uniaxial loading histories, two viscoplasticity laws, formulated by means of...
The micro-pillar compression test is emerging as a novel way to measure the mechanical properties of...
A characteristic method has been developed using a Murnaghan-form isentropic equation and characteri...
A prototype of a new concept for intermediate strain rate compression testing is presented. The conc...
ABSTRACT—Part I of this work addressed quasi-static load-ing of the shear compression specimen (SCS)...
Full range constant strain rate tests are required for accurately characterizing initial yield point...
Isentropic compression experiments (ICE) are a way of obtaining equation of state information for me...
A long-standing goal of the equation of state (EOS) community has been the development of a loading ...
This thesis is concerned with the mathematical modelling of elastic-plastic deformation in regimes o...
Several new techniques for high-pressure (quasi-) isentropic compression of materials are becoming a...
This paper provides a brief review of experimental techniques for producing dynamic isentropic compr...
The material behavior at high strain rate (> 104 s-1) and large strain (> 50 %) is unattainable with...
Shock loading techniques are often used to determine material response along a specific pressure loa...
Abstract: The material behavior at high strain rate (> lo4 s-') and large strain (> 50 %)...
It is well established that measurements of the dynamic mechanical response of materials are suscept...
Using strain controlled uniaxial loading histories, two viscoplasticity laws, formulated by means of...
The micro-pillar compression test is emerging as a novel way to measure the mechanical properties of...
A characteristic method has been developed using a Murnaghan-form isentropic equation and characteri...
A prototype of a new concept for intermediate strain rate compression testing is presented. The conc...
ABSTRACT—Part I of this work addressed quasi-static load-ing of the shear compression specimen (SCS)...
Full range constant strain rate tests are required for accurately characterizing initial yield point...
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