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Modelling of the age-hardening behaviour in AA6xxx within a through-process modelling framework

Wednesday (08.11.2017)
16:40 - 17:00
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The manufacturing of AA6xxx car body panels typically consists of rolling, ageing and forming processes. Thus, multiple simulation tools can be coupled to set up a through-process modelling (TPM) framework for predicting the evolution of microstructure and the final mechanical properties of these products. In order to realize such a TPM concept, various industrial processing phenomena were studied and modelled in the open innovation research cluster “Advanced Metals and Processes” (AMAP†). This work focuses on the age hardening behaviour which takes places during the industrial paint bake process. To reflect the microstructure evolution of this processing step, a multi-component precipitation model was developed. So far, the influence of thermomechanical processes, i.e. annealing temperature and pre-deformation on the kinetics of MgxSiy precipitates during artificial aging were implemented. The precipitation model was linked to a yield strength model in order to simulate the evolution of mechanical properties within the TPM framework. For validation, the evolution of microstructure and mechanical properties of an AA6016 alloy during artificial ageing was investigated via transmission electron microscopy and tensile testing.

Dr. Christian Bollmann
Aleris Rolled Products Germany GmbH
Additional Authors:
  • Dr. Thiemo Brüggemann
    Hydro Aluminium Rolled Products GmbH
  • Dr. Zeqin Liang
    Novelis Research and Technology Center Göttingen
  • Fengxin Mao
    Institut für Metallkunde und Metallphysik, RWTH Aachen University