Add to ORKGIn order to reveal the underlying mesoscopic mechanism governing the experimentally observed failure in solids subjected to impact loading, this paper presents a model of statistical microdamage evolution to macroscopic failure, in particular to spallation. Based on statistical microdamage mechanics and experi-mental measurement of nucleation and growth of microcracks in an Al alloy subjected to plate impact loading, the evolution law of damage and the dynamical function of damage are obtained. Then, a lower bound to damage localization can be derived. It is found that the damage evolution beyond the threshold of damage localization is extremely fast. So, damage localization can serve as a precursor to failure. This is supported by experime...
Knowledge of damage accumulation and corresponding failure evolution are prerequisite for effective ...
Abstract. Statistical theory of defect evolution allows us to obtain non-linear kinetic equations fo...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityMaterials...
In order to reveal the underlying mesoscopic mechanism governing the experimentally observed failure...
In order to reveal the underlying mesoscopic mechanism governing the experimentally observed failure...
A closed, trans-scale formulation of damage evolution based on the statistical microdamage mechanics...
A closed, trans-scale formulation of damage evolution based on the statistical microdamage mechanics...
The process of damage evolution concerns various scales, from micro- to macroscopic. How to characte...
Discussed are the underlying background of statistical microdamage mechanics, the fundamental partia...
Damage and failure due to distributed microcracks or microvoids are on the challenging frontiers of ...
Damage and failure due to distributed microcracks or microvoids are on the challenging frontiers of ...
ABSTRACT: A closed, trans-scale formulation of damage volution based on the statistical mi-crodamag...
The capability to predict the impact tolerance of next generation lightweight metallic materials for...
This paper reviews the concept of damage localization and its application to time-independent (quasi...
Dynamic function of damage is the key to the problem of damage evolution of solids. In order to unde...
Knowledge of damage accumulation and corresponding failure evolution are prerequisite for effective ...
Abstract. Statistical theory of defect evolution allows us to obtain non-linear kinetic equations fo...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityMaterials...
In order to reveal the underlying mesoscopic mechanism governing the experimentally observed failure...
In order to reveal the underlying mesoscopic mechanism governing the experimentally observed failure...
A closed, trans-scale formulation of damage evolution based on the statistical microdamage mechanics...
A closed, trans-scale formulation of damage evolution based on the statistical microdamage mechanics...
The process of damage evolution concerns various scales, from micro- to macroscopic. How to characte...
Discussed are the underlying background of statistical microdamage mechanics, the fundamental partia...
Damage and failure due to distributed microcracks or microvoids are on the challenging frontiers of ...
Damage and failure due to distributed microcracks or microvoids are on the challenging frontiers of ...
ABSTRACT: A closed, trans-scale formulation of damage volution based on the statistical mi-crodamag...
The capability to predict the impact tolerance of next generation lightweight metallic materials for...
This paper reviews the concept of damage localization and its application to time-independent (quasi...
Dynamic function of damage is the key to the problem of damage evolution of solids. In order to unde...
Knowledge of damage accumulation and corresponding failure evolution are prerequisite for effective ...
Abstract. Statistical theory of defect evolution allows us to obtain non-linear kinetic equations fo...
Thesis (Ph.D.), School of Mechanical and Materials Engineering, Washington State UniversityMaterials...