Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
Indentation tests are used to explore incipient plasticity in crystals. The tip of scanning tunnelin...
Examples of mathematical models for problems in materials science and mechanics: defects and ripples...
The goal of computational material science is to improve existing materials and design new ones thro...
Crystal plasticity has been an active research field for several decades. The crystal plasticity of ...
The formation of dislocation structures in crystalline metals is simulated with a computer simulatio...
AbstractIn the “materials-genome” (MG) approach which is currently being advocated in the United Sta...
Keynote TalkCurrent strategies of computational crystal plasticity that focus on individual atoms or...
Line defects in crystals, known as dislocations, govern the mechanisms of plastic deformation at the...
In this paper we study the connection between four models describing dislocation dynamics: a general...
In this paper we study the connection between four models describing dislocation dynamics: a general...
We develop a continuum model of dislocation dynamics that predicts the main features of the crystal ...
In this paper, starting from the microscopic dynamics of isolated dislocations, we explain how to de...
This paper focuses on modeling defects in crystalline materials in one-dimension using field disloca...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
Indentation tests are used to explore incipient plasticity in crystals. The tip of scanning tunnelin...
Examples of mathematical models for problems in materials science and mechanics: defects and ripples...
The goal of computational material science is to improve existing materials and design new ones thro...
Crystal plasticity has been an active research field for several decades. The crystal plasticity of ...
The formation of dislocation structures in crystalline metals is simulated with a computer simulatio...
AbstractIn the “materials-genome” (MG) approach which is currently being advocated in the United Sta...
Keynote TalkCurrent strategies of computational crystal plasticity that focus on individual atoms or...
Line defects in crystals, known as dislocations, govern the mechanisms of plastic deformation at the...
In this paper we study the connection between four models describing dislocation dynamics: a general...
In this paper we study the connection between four models describing dislocation dynamics: a general...
We develop a continuum model of dislocation dynamics that predicts the main features of the crystal ...
In this paper, starting from the microscopic dynamics of isolated dislocations, we explain how to de...
This paper focuses on modeling defects in crystalline materials in one-dimension using field disloca...
Internal microstructural length scales play a fundamental role in the strength and ductility of a ma...
Current strategies of computational crystal plasticity that focus on individual atoms or dislocation...
Indentation tests are used to explore incipient plasticity in crystals. The tip of scanning tunnelin...
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