Add to ORKGThe mechanical properties of Al alloys are strongly affected by their microstructure: the size and shape of precipitates, their homogeneous distribution and their coherency with the matrix are of primary importance for an effective strengthening of the alloys at room and elevated temperatures. Physically-based models are powerful tools to predict the influence of the mentioned parameters on the mechanical properties of the alloy after age hardening, and also to predict the effect of high temperature service conditions on microstructure evolution. Scope of this work is to model the dimensional kinetic evolution of plate shaped precipitates of an Al-based alloy during aging and after different overaging times at ...
The applications of lightweight and high strength sheet aluminium alloys are increasing rapidly in t...
A major objective of the current engine development projects is the downsizing of engines, which lea...
A model for the yield strength of multi-component alloys is presented and applied to overaged Al-Zn-...
The mechanical properties of Al alloys are strongly affected by their microstructure: the size and...
Mechanical properties of age-hardenable Al alloys depend strongly on the characteristics of nanometr...
International audienceIn this paper are reviewed some recent progress on the understanding and simul...
For an ICME (Integrated Computational Material Engineering) modeling framework used for the age-hard...
Age-hardenable aluminum alloys are widely used in the automotive industry. These alloys are classifi...
An age hardening model has been developed to predict the yield strength of Al-Cu-Mg alloys with comp...
In the present study, an age-hardening model for Al-Mg-Si alloys was developed considering cylindric...
The mechanical properties of age hardenable Al alloys depend strongly on the precipitate microstruct...
International audienceWe present a systematic study of the relationship between precipitate microstr...
A number of alloys, notably most of the aluminum alloys, can be heat treated by aging. This aging du...
A modelling framework for the strength and work hardening contributions in age hardened Al–Mg–Si all...
In recent years, a creep model that does not involve adjustable parameters has been successfully app...
The applications of lightweight and high strength sheet aluminium alloys are increasing rapidly in t...
A major objective of the current engine development projects is the downsizing of engines, which lea...
A model for the yield strength of multi-component alloys is presented and applied to overaged Al-Zn-...
The mechanical properties of Al alloys are strongly affected by their microstructure: the size and...
Mechanical properties of age-hardenable Al alloys depend strongly on the characteristics of nanometr...
International audienceIn this paper are reviewed some recent progress on the understanding and simul...
For an ICME (Integrated Computational Material Engineering) modeling framework used for the age-hard...
Age-hardenable aluminum alloys are widely used in the automotive industry. These alloys are classifi...
An age hardening model has been developed to predict the yield strength of Al-Cu-Mg alloys with comp...
In the present study, an age-hardening model for Al-Mg-Si alloys was developed considering cylindric...
The mechanical properties of age hardenable Al alloys depend strongly on the precipitate microstruct...
International audienceWe present a systematic study of the relationship between precipitate microstr...
A number of alloys, notably most of the aluminum alloys, can be heat treated by aging. This aging du...
A modelling framework for the strength and work hardening contributions in age hardened Al–Mg–Si all...
In recent years, a creep model that does not involve adjustable parameters has been successfully app...
The applications of lightweight and high strength sheet aluminium alloys are increasing rapidly in t...
A major objective of the current engine development projects is the downsizing of engines, which lea...
A model for the yield strength of multi-component alloys is presented and applied to overaged Al-Zn-...