Add to ORKGWe introduce the Bozzolo-Ferrante-Smith (BFS) method for alloys as a computationally efficient tool for aiding in the process of alloy design. An intuitive description of the BFS method is provided, followed by a formal discussion of its implementation. The method is applied to the study of the defect structure of NiAl binary alloys. The groundwork is laid for a detailed progression to higher order NiAl-based alloys linking theoretical calculations and computer simulations based on the BFS method and experimental work validating each step of the alloy design process
The BFS method for alloys is applied to the study of 200 alloys obtained from adding Cu and Au impur...
Recently, a semiempirical method for alloys based on equivalent crystal theory was introduced. The m...
The development of more efficient engines and power plants for future supersonic transports depends ...
The BFS method has been applied to the study of NiAl-based materials to assess the effect of alloyin...
The aerospace industry has a need for new metallic alloys that are lightweight and have high strengt...
The semiempirical BFS method for alloys is generalized by replacing experimental input with first-pr...
Large-scale simulations of dynamic processes at the atomic level have developed into one of the main...
The study of surface segregation, although of great technological importance, has been largely restr...
The BFS method for alloys is applied to the study of surface alloy formation. This method was previo...
The Bozzolo, Ferrante and Smith (BFS) method for alloys is applied to the study of the defect struct...
We investigate the site substitution scheme of specific alloying elements in ordered compounds and t...
Using BFS, a new semiempirical method for alloys, we study the surface structure of fcc ordered bina...
The research program sponsored by this grant, "Computational Materials Program for Alloy Design", co...
As a result of a multidisciplinary effort involving solid-state physics, quantum mechanics, and mate...
The method of Bozzolo, Ferrante and Smith is applied for the calculation of alloy energies for bcc e...
The BFS method for alloys is applied to the study of 200 alloys obtained from adding Cu and Au impur...
Recently, a semiempirical method for alloys based on equivalent crystal theory was introduced. The m...
The development of more efficient engines and power plants for future supersonic transports depends ...
The BFS method has been applied to the study of NiAl-based materials to assess the effect of alloyin...
The aerospace industry has a need for new metallic alloys that are lightweight and have high strengt...
The semiempirical BFS method for alloys is generalized by replacing experimental input with first-pr...
Large-scale simulations of dynamic processes at the atomic level have developed into one of the main...
The study of surface segregation, although of great technological importance, has been largely restr...
The BFS method for alloys is applied to the study of surface alloy formation. This method was previo...
The Bozzolo, Ferrante and Smith (BFS) method for alloys is applied to the study of the defect struct...
We investigate the site substitution scheme of specific alloying elements in ordered compounds and t...
Using BFS, a new semiempirical method for alloys, we study the surface structure of fcc ordered bina...
The research program sponsored by this grant, "Computational Materials Program for Alloy Design", co...
As a result of a multidisciplinary effort involving solid-state physics, quantum mechanics, and mate...
The method of Bozzolo, Ferrante and Smith is applied for the calculation of alloy energies for bcc e...
The BFS method for alloys is applied to the study of 200 alloys obtained from adding Cu and Au impur...
Recently, a semiempirical method for alloys based on equivalent crystal theory was introduced. The m...
The development of more efficient engines and power plants for future supersonic transports depends ...