The development of bulk metallic glasses (BMGs) is a topic of current interest due to the unique set of properties that distinguish them from their crystalline counterpart and make them attractive in industrial applications as both structural and functional materials. Currently, a great effort is being made to model and quantify the glass forming ability of the amorphous in an alloy, as well as in tuning their properties in view of the final application of the material. In this work we have used two machine learning techniques, multiple linear regression and tree boosting, to predict the maximum amorphous diameter of Fe-based BMGs, exclusively from the alloy’s chemical composition. The modeĺ s predictive power is characterised by a predict...
We formulate a materials design strategy combining a machine learning (ML) surrogate model with expe...
Scientists have extensively studied metallic glasses (MGs) for their excellent properties and potent...
Dataset with maximum amorphous thickness (Dmax) for Fe-based Bulk Metallic Glass Alloys (up to Febru...
A broad range of potential chemical compositions makes difficult design of novel bulk metallic glass...
Supplementary Material for the paper entitled: "Design of Fe-based Bulk Metallic Glasses for maximum...
Rational design of amorphous alloys from the viewpoint of elasticity can be helpful as it offers clo...
Fe-based metallic glasses (MGs) are a class of promising soft magnetic materials that have received ...
The discovery of novel metallic glasses (MGs) with high glass-forming ability (GFA) has been an impo...
Abstract The compositional design of metallic glasses (MGs) is a long-standing issue in materials sc...
202208 bchyAccepted ManuscriptOthersthe National Key Research and Development Program of China; the ...
The ability of a matter to fall into a glassy state upon cooling differs greatly among metallic allo...
This paper presents a new approach based on an artificial neural network (ANN) and a genetic algorit...
With the development of the materials genome philosophy and data mining methodologies, machine learn...
High strength alloys are materials with alloying additions designed to produce a specific combinatio...
From the Washington University Office of Undergraduate Research Digest (WUURD), Vol. 12, 05-01-2017....
We formulate a materials design strategy combining a machine learning (ML) surrogate model with expe...
Scientists have extensively studied metallic glasses (MGs) for their excellent properties and potent...
Dataset with maximum amorphous thickness (Dmax) for Fe-based Bulk Metallic Glass Alloys (up to Febru...
A broad range of potential chemical compositions makes difficult design of novel bulk metallic glass...
Supplementary Material for the paper entitled: "Design of Fe-based Bulk Metallic Glasses for maximum...
Rational design of amorphous alloys from the viewpoint of elasticity can be helpful as it offers clo...
Fe-based metallic glasses (MGs) are a class of promising soft magnetic materials that have received ...
The discovery of novel metallic glasses (MGs) with high glass-forming ability (GFA) has been an impo...
Abstract The compositional design of metallic glasses (MGs) is a long-standing issue in materials sc...
202208 bchyAccepted ManuscriptOthersthe National Key Research and Development Program of China; the ...
The ability of a matter to fall into a glassy state upon cooling differs greatly among metallic allo...
This paper presents a new approach based on an artificial neural network (ANN) and a genetic algorit...
With the development of the materials genome philosophy and data mining methodologies, machine learn...
High strength alloys are materials with alloying additions designed to produce a specific combinatio...
From the Washington University Office of Undergraduate Research Digest (WUURD), Vol. 12, 05-01-2017....
We formulate a materials design strategy combining a machine learning (ML) surrogate model with expe...
Scientists have extensively studied metallic glasses (MGs) for their excellent properties and potent...
Dataset with maximum amorphous thickness (Dmax) for Fe-based Bulk Metallic Glass Alloys (up to Febru...