@ARTICLE{Maj_M._The_2017, author={Maj, M. and Pysz, S. and Żuczek, R. and Piekło, J.}, volume={vol. 17}, number={No 4}, journal={Archives of Foundry Engineering}, howpublished={online}, year={2017}, publisher={The Katowice Branch of the Polish Academy of Sciences}, abstract={The ecological meanings clearly indicates the need of reducing of the concentration of the CO2in the atmosphere, which can be accomplished through the lowering of the fuel consumption. This fact implies the research for the new construction solutions regarding the reduction of the weight of vehicles. The reduced weight of the vehicle is also important in the case of application of the alternative propulsion, to extend the lifetime of the batteries with the reduction of recharge cycles. The use of cast alloy AlZnMgCu compliant of plastic forming class 7xxx alloy, are intended to significantly reduce the weight of the structures, while ensuring high strength properties. The wide range of the solidification temperature, which is more than 150°C, characterizes this alloy with a high tendency to create the micro and macro porosity. The study presents the relationship between the cooling rate and the area of occurrence and percentage of microporosity. Then the results were linked to the local tensile strength predicted in the simulation analysis. The evaluation of the microporosity was performed on the basis of the CT (computed tomography) and the analysis of the alloy microstructure. The microstructure analysis was carried out on test specimen obtained from the varying wall thickness of the experimental casting. The evaluation of the mechanical properties was prepared on the basis of the static tensile test and the modified low cycle fatigue test (MLCF).}, type={Artykuły / Articles}, title={The Influence of the Microporosity on the Mechanical Properties of the AlZnMgCu Alloy, Based on the Numerical Analysis and Laboratory Trials}, URL={http://journals.pan.pl/Content/104617/PDF/afe-2017-0145.pdf}, doi={10.1515/afe-2017-0145}, keywords={mechanical properties, AlZnMgCu alloy, Microporosity, Low fatigue cycle test}, }