Add to ORKGAtomistic simulations of alloys at the classic--or empirical--level face the challenge to correctly model basic thermodynamic properties. In this work we propose a methodology to generalize many-body classic potentials to incorporate complex formation energy curves. Application to Fe-Cr allows us to correctly predict the order vs segregation tendency in this alloy, as observed experimentally and calculated with ab initio techniques, providing in this way a potential suitable for radiation damage studies
A detailed analysis of the embedded atom method and Finnis-Sinclair formalisms is performed, showing...
A detailed analysis of the embedded atom method and Finnis-Sinclair formalisms is performed, showing...
Austenitic stainless steels are commonly used materials for in-core components of nuclear light wate...
Fe-Cr alloys form the basis of many industrially important steels. Due to their excellent resistance...
Fe-Cr alloys form the basis of many industrially important steels. Due to their excellent resistance...
Fe-Cr alloys form the basis of many industrially important steels. Due to their excellent resistance...
This research has two main objectives: (1) On one side is the development of computational tools to ...
We review the experimental evidence of the non-monotonic behaviour of FeCr alloys versus Cr content,...
Displacement cascades up to 50 keV have been simulated in Fe-10%Cr by molecular dynamics (MD), using...
The project began March 13, 2006, allocated for three years, and received a one year extension from ...
We describe the path we are following in the development of a computational approach to simulate rad...
Using a recently developed analytical bond-order potential for the complete ternary system, we perfo...
This research has two main objectives: (1) The development of computational tools to evaluate alloy ...
Modeling the consequences of crystalline defects requires efficient interaction sampling. Empirical ...
Radiation-induced segregation (RIS) has been studied with experimental and theoretical methods for o...
A detailed analysis of the embedded atom method and Finnis-Sinclair formalisms is performed, showing...
A detailed analysis of the embedded atom method and Finnis-Sinclair formalisms is performed, showing...
Austenitic stainless steels are commonly used materials for in-core components of nuclear light wate...
Fe-Cr alloys form the basis of many industrially important steels. Due to their excellent resistance...
Fe-Cr alloys form the basis of many industrially important steels. Due to their excellent resistance...
Fe-Cr alloys form the basis of many industrially important steels. Due to their excellent resistance...
This research has two main objectives: (1) On one side is the development of computational tools to ...
We review the experimental evidence of the non-monotonic behaviour of FeCr alloys versus Cr content,...
Displacement cascades up to 50 keV have been simulated in Fe-10%Cr by molecular dynamics (MD), using...
The project began March 13, 2006, allocated for three years, and received a one year extension from ...
We describe the path we are following in the development of a computational approach to simulate rad...
Using a recently developed analytical bond-order potential for the complete ternary system, we perfo...
This research has two main objectives: (1) The development of computational tools to evaluate alloy ...
Modeling the consequences of crystalline defects requires efficient interaction sampling. Empirical ...
Radiation-induced segregation (RIS) has been studied with experimental and theoretical methods for o...
A detailed analysis of the embedded atom method and Finnis-Sinclair formalisms is performed, showing...
A detailed analysis of the embedded atom method and Finnis-Sinclair formalisms is performed, showing...
Austenitic stainless steels are commonly used materials for in-core components of nuclear light wate...