International audienceA new computational framework for systematic and optimal alloy design is introduced. It is based on a multi-objective genetic algorithm which allows (i) the screening of vast compositional ranges and (ii) the optimisation of the performance of novel alloys. Alloys performance is evaluated on the basis of their predicted constitutional and thermomechanical properties. To this end, the CALPHAD method is used for assessing equilibrium characteristics (such as constitution, stability or processability) while Gaussian processes provide an estimate of thermomechanical properties (such as tensile strength or creep resistance), based on a multi-variable non-linear regression of existing data. These three independently well-ass...
A multi-objective optimisation genetic algorithm combining solid solution hardening (SSH) and thermo...
With the development of the materials genome philosophy and data mining methodologies, machine learn...
The development in computational simulation techniques has brought significant progress in the reali...
International audienceA new alloy design procedure is proposed, combining in a single computational ...
International audienceComputational thermodynamics based on the CALPHAD approach (Thermo-Calc softwa...
A theory-guided computational approach for alloy design is presented. Aimed at optimising the desire...
Ce travail a pour objet le développement d’un système combinant un algorithme génétique d’optimisati...
A new computational tool has been developed to model, discover, and optimize new alloys that simulta...
The nickel-based superalloys have been a key enabler to the development of modern gas turbine engin...
A modelling strategy for designing nanoprecipitation strengthened alloys is presented here. This wor...
A new integrated computational HEA design strategy is proposed. It combines a multi-objective geneti...
The paper presents the usage of computational technology, aimed at automated search for optimum comp...
A methodology is presented to tailor the microstructure of alloys for developing “materials by desig...
An Alloys-By-Design approach has been proposed; application of it allows compositions of single crys...
A general computational alloy design approach based on thermodynamic and physical metallurgical prin...
A multi-objective optimisation genetic algorithm combining solid solution hardening (SSH) and thermo...
With the development of the materials genome philosophy and data mining methodologies, machine learn...
The development in computational simulation techniques has brought significant progress in the reali...
International audienceA new alloy design procedure is proposed, combining in a single computational ...
International audienceComputational thermodynamics based on the CALPHAD approach (Thermo-Calc softwa...
A theory-guided computational approach for alloy design is presented. Aimed at optimising the desire...
Ce travail a pour objet le développement d’un système combinant un algorithme génétique d’optimisati...
A new computational tool has been developed to model, discover, and optimize new alloys that simulta...
The nickel-based superalloys have been a key enabler to the development of modern gas turbine engin...
A modelling strategy for designing nanoprecipitation strengthened alloys is presented here. This wor...
A new integrated computational HEA design strategy is proposed. It combines a multi-objective geneti...
The paper presents the usage of computational technology, aimed at automated search for optimum comp...
A methodology is presented to tailor the microstructure of alloys for developing “materials by desig...
An Alloys-By-Design approach has been proposed; application of it allows compositions of single crys...
A general computational alloy design approach based on thermodynamic and physical metallurgical prin...
A multi-objective optimisation genetic algorithm combining solid solution hardening (SSH) and thermo...
With the development of the materials genome philosophy and data mining methodologies, machine learn...
The development in computational simulation techniques has brought significant progress in the reali...