TITLE:
Mechanical Behaviour Modelling of an Mg-Stabilized Zirconia Reinforced TRIP-Matrix-Composite under Cold Working Conditions
AUTHORS:
Sergey Guk, Wolfhart Müller, Katja Pranke, Rudolf Kawalla
KEYWORDS:
Modelling, Mechanical Behaviour, Metal Matrix Composite, TRIP-Steel, ZrO2
JOURNAL NAME:
Materials Sciences and Applications,
Vol.5 No.11,
September
29,
2014
ABSTRACT: In the present work, a new method to predict the stress-strain curves for three-phase materials has been developed. It was applied using the example of an Mg-stabilized zirconia reinforced TRIP-matrix-composite. The content of the ceramic phase was varied between 5% and 20%, whereas the particle size of the ceramic was selected to be 30 to 50 μm. The method is a further development of mixture rule for multiphase materials with more than two microstructure components. The prediction results were compared with the original method of mixture rule and with the IsoE-method. It is shown that the new method significantly improves the convergence compared to the standard method for mixture rule, even though it does not reach the accuracy of IsoE-method. Furthermore, there is an improvement of predicted convergence for large values of the total stress. Finally, a working map was designed for a quick graphical definition of the objective functions.