Estimation of grain boundary segregation enthalpy and its role in stable nanocrystalline alloy desig
Grain boundary segregation can reduce the driving force for grain growth in nanocrystalline material...
This paper studies solute segregation and its relationship to grain boundary energy in binary alloys...
The segregation of solute atoms at grain boundaries (GBs) can profoundly impact the structural prope...
Grain boundary segregation provides a method for stabilization of nanocrystalline metals—an alloying...
Alloying nanocrystalline materials to stabilize them against grain growth is proving a critical enab...
In the last few decades, nanocrystalline metals have been of increasing interest. Their ability to s...
A free-energy function for binary polycrystalline solid solutions is developed based on pairwise nea...
A Monte Carlo simulation method is used to study the energetics and configuration of binary alloys w...
Grain boundaries are the dominating type of defect in nanocrystalline materials. Understanding their...
The Pd-based metal membranes have been focused on many studies, because they are the most promising ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Abstract Nanocrystalline metals are transitioning from laboratory curiosities to engi...
Grain boundary (GB) stability and strength are two essential points for nanocrystalline materials. I...
The stability and strength of the grain boundary (GB) structure are critical for the practical appli...
Grain boundary embrittlement occurs when a solute enriches at a grain boundary and lowers its cohesi...
Grain boundary segregation can reduce the driving force for grain growth in nanocrystalline material...
This paper studies solute segregation and its relationship to grain boundary energy in binary alloys...
The segregation of solute atoms at grain boundaries (GBs) can profoundly impact the structural prope...
Grain boundary segregation provides a method for stabilization of nanocrystalline metals—an alloying...
Alloying nanocrystalline materials to stabilize them against grain growth is proving a critical enab...
In the last few decades, nanocrystalline metals have been of increasing interest. Their ability to s...
A free-energy function for binary polycrystalline solid solutions is developed based on pairwise nea...
A Monte Carlo simulation method is used to study the energetics and configuration of binary alloys w...
Grain boundaries are the dominating type of defect in nanocrystalline materials. Understanding their...
The Pd-based metal membranes have been focused on many studies, because they are the most promising ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Materials Science and Engineeri...
Abstract Nanocrystalline metals are transitioning from laboratory curiosities to engi...
Grain boundary (GB) stability and strength are two essential points for nanocrystalline materials. I...
The stability and strength of the grain boundary (GB) structure are critical for the practical appli...
Grain boundary embrittlement occurs when a solute enriches at a grain boundary and lowers its cohesi...
Grain boundary segregation can reduce the driving force for grain growth in nanocrystalline material...
This paper studies solute segregation and its relationship to grain boundary energy in binary alloys...
The segregation of solute atoms at grain boundaries (GBs) can profoundly impact the structural prope...