Fe-based metallic glasses (MGs) are a class of promising soft magnetic materials that have received great attention in transformer industries. However, it is challenging to achieve a balance between saturation magnetization (Bs), glass-forming ability and plasticity due to their contradictory correlations in Fe-based MGs, which severely hinders the development of new Fe-based MGs with advanced performances. Inspired by the significant development in machine learning technology, we herein propose a multi-objective op-timization strategy to search for Fe-based MGs with optimal combinations of critical casting size (Dmax), Bs, and plasticity. The objective functions are built in combination with neural network models for pre-dicting Dmax and B...
Rational design of amorphous alloys from the viewpoint of elasticity can be helpful as it offers clo...
High strength alloys are materials with alloying additions designed to produce a specific combinatio...
In this work, the CuAgZr metallic glasses (MGs) are investigated, a promising material for biomedica...
Fe-based metallic glasses (MGs) are a class of promising soft magnetic materials that have received ...
A broad range of potential chemical compositions makes difficult design of novel bulk metallic glass...
The development of bulk metallic glasses (BMGs) is a topic of current interest due to the unique set...
The discovery of novel metallic glasses (MGs) with high glass-forming ability (GFA) has been an impo...
The soft magnetic properties of Fe-based amorphous alloys can be controlled by their compositions th...
With the development of the materials genome philosophy and data mining methodologies, machine learn...
We formulate a materials design strategy combining a machine learning (ML) surrogate model with expe...
In the present study, the machine learning (ML) method was utilized to construct a composition–struc...
This paper presents a new approach based on an artificial neural network (ANN) and a genetic algorit...
Artificial intelligence operated with machine learning was performed to optimize the amount of metal...
This work demonstrates a novel approach to design and optimization of rare-earth free magnetic mater...
Abstract The compositional design of metallic glasses (MGs) is a long-standing issue in materials sc...
Rational design of amorphous alloys from the viewpoint of elasticity can be helpful as it offers clo...
High strength alloys are materials with alloying additions designed to produce a specific combinatio...
In this work, the CuAgZr metallic glasses (MGs) are investigated, a promising material for biomedica...
Fe-based metallic glasses (MGs) are a class of promising soft magnetic materials that have received ...
A broad range of potential chemical compositions makes difficult design of novel bulk metallic glass...
The development of bulk metallic glasses (BMGs) is a topic of current interest due to the unique set...
The discovery of novel metallic glasses (MGs) with high glass-forming ability (GFA) has been an impo...
The soft magnetic properties of Fe-based amorphous alloys can be controlled by their compositions th...
With the development of the materials genome philosophy and data mining methodologies, machine learn...
We formulate a materials design strategy combining a machine learning (ML) surrogate model with expe...
In the present study, the machine learning (ML) method was utilized to construct a composition–struc...
This paper presents a new approach based on an artificial neural network (ANN) and a genetic algorit...
Artificial intelligence operated with machine learning was performed to optimize the amount of metal...
This work demonstrates a novel approach to design and optimization of rare-earth free magnetic mater...
Abstract The compositional design of metallic glasses (MGs) is a long-standing issue in materials sc...
Rational design of amorphous alloys from the viewpoint of elasticity can be helpful as it offers clo...
High strength alloys are materials with alloying additions designed to produce a specific combinatio...
In this work, the CuAgZr metallic glasses (MGs) are investigated, a promising material for biomedica...