@ARTICLE{Zyska_Andrzej_Forecasting_2023, author={Zyska, Andrzej and BieroĊ„ski, Mariusz}, volume={vol. 23}, number={No 4}, pages={87-92}, journal={Archives of Foundry Engineering}, howpublished={online}, year={2023}, publisher={The Katowice Branch of the Polish Academy of Sciences}, abstract={The paper presents the results of calculations and measurements of the first natural frequency of castings of solid and ventilated brake discs made of gray cast iron of the EN-GJL-200 class. The tests were carried out for three types of chemical composition, taking into account the permissible minimum and maximum content of alloying elements. Numerical simulations of natural vibrations were carried out on the basis of our own production material databases. To determine the elastic properties of cast iron, the ultrasonic method with the measurement of the propagation velocity of longitudinal and transverse waves was used. Measurements were made directly on casts of raw discs of various thicknesses. The values of Young's modulus and Poisson's number calculated from ultrasonic measurements were used to define the stiffness matrix in the equilibrium equation, which is solved by the solver of the MSC Nastran program. A high compatibility between the results of numerical simulations and the results of experimental FRF frequency analysis was obtained. The differences between the calculated and actual values were at the level of several hertz, while the estimated average error of numerical simulations was 0.76%. It was also found out that cast iron melts for brake discs must be subject to strict control in terms of chemical composition. Slight deviations of the eutectic saturation coefficient from the optimal value cause a significant change in the first natural frequency of the brake discs, regardless of their geometry.}, type={Article}, title={Forecasting the Natural Frequency of the Brake Disc casting}, URL={http://ochroma.man.poznan.pl/Content/129839/PDF/AFE%204_2023_10.pdf}, doi={10.24425/afe.2023.146682}, keywords={Gray cast iron, Brake discs, ultrasonic method, Elastic property, Natural vibrations}, }