1. Yevtushenko, A.A., Grzes, P., '3D FE model of frictional heating and wear with a mutual influence of the sliding velocity and temperature in a disc brake', International Communications in Heat and Mass Transfer, 62, pp. 37-44, (2015).

2. Pranta, M.H., Rabbi, M.S., Banik, S.C., Hafez, M.G., Yu-Ming Chu, 'A computational study on structural and thermal behavior of modified disk brake rotors', Alexandria Engineering Journal, 61(3), pp. 1882-1890, (2022).

3. Liu, Z., Zheng, H., Xu, W., Yu, Z., 'A Downhill Brake Strategy Focusing on Temperature and Wear Loss Control of Brake Systems', SAE Technical Paper, 1(2372), (2013).

4. SAE, 'Formula SAE® Rules 2023 Version 1.0', SAE International, 2022.

5. Kumar, G.R., Thriveni, S.M., Reddy, R., Gowd, G.H., 'Design Analysis & Optimization of an Automotive Disc Brake', International Journal of Advanced Engineering Research and Science (IJAERS), 1(3), pp. 24-29, (2014).