A physically-based numerical model is developed to predict the microstructural evolution and strengthening in Al Cu Mg alloys during isothermal treatments. The modelling of the formation kinetics of the precipitates is based on the Kampmann and Wagner model. The strengthening by the shearable Cu:Mg co clusters is modelled on the basis of modulus strengthening mechanism and the strengthening by the non-shearable S phase precipitates is based on the Orowan looping mechanism. The model predictions are verified by comparing with the strength and differential isothermal calorimetery data on 2024-T351 aluminium alloys. The microstructural development and strength predictions of the model are generally in good agreement with the experimental data
Al-Mg-Si alloys are heat treatable alloys in which strength is obtained by precipitation hardening. ...
A complete and detailed analysis of the microstructural development during ageing in an 8090 (Al–2.3...
The present work applies a model for microstructural evolution in the solid state and Al-Cu-Mg alloy...
A model is developed to predict the precipitation kinetics and strengthening in Al Cu Mg alloys duri...
A physically-based numerical model is developed to predict the microstructural evolution and strengt...
A multi-mechanistic model for microstructure development and strengthening during non-isothermal tre...
This present work consists of developing and testing a model for the prediction of precipitation kin...
Age hardening of Al-Cu-Mg type alloys occurs in two stages separated by a constant hardness plateau ...
This present work consists of developing and testing a model for the prediction ofprecipitation kine...
Age hardening of Al-Cu-Mg type alloys occurs in two stages separated by a constant hardness plateau ...
An age hardening model has been developed to predict the yield strength of Al-Cu-Mg alloys with comp...
The microstructural evolution during low temperature ageing of two commercial purity alloys (Al-1.2C...
Recent work on Al-Cu-Mg based alloys with Cu:Mg atomic ratio close to unity is reviewed to clarify t...
Age-hardenable aluminum alloys are widely used in the automotive industry. These alloys are classifi...
Transmission electron microscopy, differential scanning calorimetry and hardness tests have been use...
Al-Mg-Si alloys are heat treatable alloys in which strength is obtained by precipitation hardening. ...
A complete and detailed analysis of the microstructural development during ageing in an 8090 (Al–2.3...
The present work applies a model for microstructural evolution in the solid state and Al-Cu-Mg alloy...
A model is developed to predict the precipitation kinetics and strengthening in Al Cu Mg alloys duri...
A physically-based numerical model is developed to predict the microstructural evolution and strengt...
A multi-mechanistic model for microstructure development and strengthening during non-isothermal tre...
This present work consists of developing and testing a model for the prediction of precipitation kin...
Age hardening of Al-Cu-Mg type alloys occurs in two stages separated by a constant hardness plateau ...
This present work consists of developing and testing a model for the prediction ofprecipitation kine...
Age hardening of Al-Cu-Mg type alloys occurs in two stages separated by a constant hardness plateau ...
An age hardening model has been developed to predict the yield strength of Al-Cu-Mg alloys with comp...
The microstructural evolution during low temperature ageing of two commercial purity alloys (Al-1.2C...
Recent work on Al-Cu-Mg based alloys with Cu:Mg atomic ratio close to unity is reviewed to clarify t...
Age-hardenable aluminum alloys are widely used in the automotive industry. These alloys are classifi...
Transmission electron microscopy, differential scanning calorimetry and hardness tests have been use...
Al-Mg-Si alloys are heat treatable alloys in which strength is obtained by precipitation hardening. ...
A complete and detailed analysis of the microstructural development during ageing in an 8090 (Al–2.3...
The present work applies a model for microstructural evolution in the solid state and Al-Cu-Mg alloy...