In order to achieve incipient and complete spallation, plane impact experiments were performed on three types of copper with different impurity levels. Dependence of the damage behavior on the material microstructure was found. The VISAR results of these experiments were used to examine the NAG model of Curran et. al. [Phys. Rev. 147 (1987)], which includes a detailed description of microscopic void nucleation and growth dynamics. All measurements could be fitted by change of a single parameter in the model, the initial nucleation rate. The analysis demonstrates the competitive role of void nucleation and growth in the development of the spall
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
In order to achieve incipient and complete spallation, plane impact experiments were performed on th...
In order to achieve incipient and complete spallation, plane impact experiments were performed on th...
Abstract. In order to achieve incipient and complete SpaUation, plane impact experiments were perfor...
Ongoing efforts to characterize the incipient spallation of copper have increased the experimental f...
Detailed quantitative measurements of damage evolution in an incipiently spalled and recovered 10100...
A suite of plate-impact experiments have been conducted to determine the dominant factors in dynamic...
A suite of plate-impact experiments have been conducted to determine the dominant factors in dynamic...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
Complementary experiments and simulations are conducted to characterize the microstructure and mecha...
The effects of grain size on the dynamic tensile fracture (or spall) response were investigated for ...
The effects of grain size on the dynamic tensile fracture (or spall) response were investigated for ...
abstract: Understanding damage evolution, particularly as it relates to local nucleation and growth ...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
In order to achieve incipient and complete spallation, plane impact experiments were performed on th...
In order to achieve incipient and complete spallation, plane impact experiments were performed on th...
Abstract. In order to achieve incipient and complete SpaUation, plane impact experiments were perfor...
Ongoing efforts to characterize the incipient spallation of copper have increased the experimental f...
Detailed quantitative measurements of damage evolution in an incipiently spalled and recovered 10100...
A suite of plate-impact experiments have been conducted to determine the dominant factors in dynamic...
A suite of plate-impact experiments have been conducted to determine the dominant factors in dynamic...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
Complementary experiments and simulations are conducted to characterize the microstructure and mecha...
The effects of grain size on the dynamic tensile fracture (or spall) response were investigated for ...
The effects of grain size on the dynamic tensile fracture (or spall) response were investigated for ...
abstract: Understanding damage evolution, particularly as it relates to local nucleation and growth ...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...