Add to ORKGSpall failure is of interest due to its prevalence in high strain rate problems in which the spallation is driven by the interaction of release waves. In this article, a porosity-based damage model that includes microinertial effects is used to examine spall failure. The model is successfully calibrated to plate impact-driven experiments and then used to evaluate experimental conditions producing more extreme strain rate conditions, such as those in laser-driven experiments. The incorporation of microinertia allows us to better understand the increase in apparent macroscopic spall strength seen at high strain rates. Correspondingly, we conclude that the incorporation of microinertial effects improves the model’s predictive capabilities. Mic...
Under dynamic loading conditions, the rapid nature of the fracture process may simultaneously activa...
abstract: Shock loading is a complex phenomenon that can lead to failure mechanisms such as strain l...
Study and modeling of physical mechanisms of spalling observed via plate impact experiments for seve...
Spall failure is of interest due to its prevalence in high strain rate problems in which the spallat...
AbstractThe subject of this paper is identification of the physical mechanisms of spalling at low im...
This paper presents two examples of significant departures from usual trends of varying the resistan...
International audienceDynamic loadings produce high stress waves leading to the spallation of ductil...
International audienceShocks can generate high strain rates in metals (from 10$^$4 to 10$^6$ s$^{-1}...
International audienceThe ‘micro-spall’ phenomenon is a variant of fragmentation process—or spall fr...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
AbstractExperimental and numerical investigations to understand the mechanisms of spall fracture of ...
Abstract. Study and modeling of physical mechanisms of spalling observed via plate impact experiment...
We present quantification of micromechanical features such as voids that comprise the ductile fractu...
Dynamic spall failure of ductile metals is a complex multiscale, multirate process. On the macroscal...
Under dynamic loading conditions, the rapid nature of the fracture process may simultaneously activa...
abstract: Shock loading is a complex phenomenon that can lead to failure mechanisms such as strain l...
Study and modeling of physical mechanisms of spalling observed via plate impact experiments for seve...
Spall failure is of interest due to its prevalence in high strain rate problems in which the spallat...
AbstractThe subject of this paper is identification of the physical mechanisms of spalling at low im...
This paper presents two examples of significant departures from usual trends of varying the resistan...
International audienceDynamic loadings produce high stress waves leading to the spallation of ductil...
International audienceShocks can generate high strain rates in metals (from 10$^$4 to 10$^6$ s$^{-1}...
International audienceThe ‘micro-spall’ phenomenon is a variant of fragmentation process—or spall fr...
AbstractThe micromechanisms related to ductile failure during dynamic loading of single crystal Cu a...
Spalling is a typical tensile failure that results from the coupling evolution of microstructure and...
AbstractExperimental and numerical investigations to understand the mechanisms of spall fracture of ...
Abstract. Study and modeling of physical mechanisms of spalling observed via plate impact experiment...
We present quantification of micromechanical features such as voids that comprise the ductile fractu...
Dynamic spall failure of ductile metals is a complex multiscale, multirate process. On the macroscal...
Under dynamic loading conditions, the rapid nature of the fracture process may simultaneously activa...
abstract: Shock loading is a complex phenomenon that can lead to failure mechanisms such as strain l...
Study and modeling of physical mechanisms of spalling observed via plate impact experiments for seve...