Add to ORKGA theoretical approach for predicting glass forming ability of transition metal alloys is proposed. This is an attempt for synergistic understanding of the effects of thermodynamics and local geometry on glass forming ability. The enthalpy of formation has been estimated by a modified Miedema's model and used as a criterion for stability. The lattice strain energy has been estimated by a modified Miracle's model. The coordination numbers of the solute centered clusters have been used for establishing a set of inequalities that demarcate geometrically favored composition regimes. Glass formation within the geometrically favored areas is dictated by thermodynamics
In the present thermodynamic model, the optimization of bulk metallic glass forming compositions in ...
A new thermodynamic parameter PHSS (PHSS = ΔHC(ΔSσ/kB)(ΔSC/R)) is proposed, to d...
Miedema’s approach has been useful in determining the glass forming composition range for a particul...
A theoretical approach for predicting glass forming ability of transition metal alloys is proposed. ...
Topological factors such as mismatch entropy and configurational entropy, along with thermodynamic e...
A new thermodynamic calculation scheme has been proposed to estimate the composition dependency of g...
Producción CientíficaA semiempirical theory is presented to calculate free-energy diagrams of glass-...
The present design rules for metallic glasses with respect to glass formation, thermal stability (re...
Zr based bulk metallic glasses with unusual combination of properties are deemed to be potential mat...
Expressions for the two thermodynamic parameters deciding the glass forming ability,namely, TK and T...
Prediction of bulk metallic glass (BMG) forming compositions has always been a challenge due to ther...
A new and simple criterion with which to quantitatively predict the glass forming ability (GFA) of m...
Expressions for the two thermodynamic parameters deciding the glass forming ability namely, tK and T...
Compositions with high glass forming ability have been identified in Zr-Cu-Al system with the help o...
A design protocol for the discovery of novel metallic glass compositions has been developed using a ...
In the present thermodynamic model, the optimization of bulk metallic glass forming compositions in ...
A new thermodynamic parameter PHSS (PHSS = ΔHC(ΔSσ/kB)(ΔSC/R)) is proposed, to d...
Miedema’s approach has been useful in determining the glass forming composition range for a particul...
A theoretical approach for predicting glass forming ability of transition metal alloys is proposed. ...
Topological factors such as mismatch entropy and configurational entropy, along with thermodynamic e...
A new thermodynamic calculation scheme has been proposed to estimate the composition dependency of g...
Producción CientíficaA semiempirical theory is presented to calculate free-energy diagrams of glass-...
The present design rules for metallic glasses with respect to glass formation, thermal stability (re...
Zr based bulk metallic glasses with unusual combination of properties are deemed to be potential mat...
Expressions for the two thermodynamic parameters deciding the glass forming ability,namely, TK and T...
Prediction of bulk metallic glass (BMG) forming compositions has always been a challenge due to ther...
A new and simple criterion with which to quantitatively predict the glass forming ability (GFA) of m...
Expressions for the two thermodynamic parameters deciding the glass forming ability namely, tK and T...
Compositions with high glass forming ability have been identified in Zr-Cu-Al system with the help o...
A design protocol for the discovery of novel metallic glass compositions has been developed using a ...
In the present thermodynamic model, the optimization of bulk metallic glass forming compositions in ...
A new thermodynamic parameter PHSS (PHSS = ΔHC(ΔSσ/kB)(ΔSC/R)) is proposed, to d...
Miedema’s approach has been useful in determining the glass forming composition range for a particul...