Add to ORKGThe ability to predict the composition- and temperature-dependent stability of refractory complex concentrated alloys (RCCAs) is vital to the design of high-temperature structural alloys. Here, we present a model based on first-principles calculations to predict the thermodynamic stability of multicomponent equimolar solid solutions in a high-throughput manner and apply it to screen over 20,000 compositions. We develop a database that contains pairwise mixing enthalpy of 17 refractory metals using density-functional theory (DFT)-based total energy calculations. To these, we fit thermodynamic solution models that can accurately capture the mixing enthalpy of multicomponent BCC solid solutions. By comparing their energy with DFT-calculated en...
The present design rules for metallic glasses with respect to glass formation, thermal stability (re...
Our team is exploring a new concept in the development of ultra-high temperature materials - enginee...
We have developed a systematic method to investigate the phase stability of M(n+1)AX(n) phases, here...
This dataset describes the thermodynamic stability of over 65000 hypothetical quinary alloys from th...
Enthalpy of mixing is among the key materials parameters to determine phase stability and phase tran...
We use an analytical model to propose candidate compositionally complex alloys of the Mo-Nb-Ta-W fam...
Multiple-principal element materials, including alloys (MPEAs), oxides and other compounds combine s...
This paper reviews the three main approaches for predicting the formation of concentrated solid solu...
Developing ductile refractory BCC alloys has remained a challenge. The intrinsic ductility (D) of an...
Thermodynamic and mechanical properties of 15 single-phase and 11 multi-phase refractory complex con...
International audienceThermodynamic and kinetic calculations are commonly used for forecasting phase...
International audienceCobalt constitutes a large part of the radioactive waste in the primary circui...
Accurate gas phase formation enthalpies, ÎHf, of metal oxides and halides are critical for the predi...
Developing ductile refractory alloys have remained a challenge. Decreasing the valence electron conc...
Recently, new refractory-based high entropy alloys (HEAs) have been investigated for potential use a...
The present design rules for metallic glasses with respect to glass formation, thermal stability (re...
Our team is exploring a new concept in the development of ultra-high temperature materials - enginee...
We have developed a systematic method to investigate the phase stability of M(n+1)AX(n) phases, here...
This dataset describes the thermodynamic stability of over 65000 hypothetical quinary alloys from th...
Enthalpy of mixing is among the key materials parameters to determine phase stability and phase tran...
We use an analytical model to propose candidate compositionally complex alloys of the Mo-Nb-Ta-W fam...
Multiple-principal element materials, including alloys (MPEAs), oxides and other compounds combine s...
This paper reviews the three main approaches for predicting the formation of concentrated solid solu...
Developing ductile refractory BCC alloys has remained a challenge. The intrinsic ductility (D) of an...
Thermodynamic and mechanical properties of 15 single-phase and 11 multi-phase refractory complex con...
International audienceThermodynamic and kinetic calculations are commonly used for forecasting phase...
International audienceCobalt constitutes a large part of the radioactive waste in the primary circui...
Accurate gas phase formation enthalpies, ÎHf, of metal oxides and halides are critical for the predi...
Developing ductile refractory alloys have remained a challenge. Decreasing the valence electron conc...
Recently, new refractory-based high entropy alloys (HEAs) have been investigated for potential use a...
The present design rules for metallic glasses with respect to glass formation, thermal stability (re...
Our team is exploring a new concept in the development of ultra-high temperature materials - enginee...
We have developed a systematic method to investigate the phase stability of M(n+1)AX(n) phases, here...