1. Atig, A., Ben Sghaier, R., Seddik, R. and Fathallah, R. (2017). Reliability-based high cycle fatigue design approach of parabolic leaf spring. Proc. Institution of Mechanical Engineers, Part L: J. Materials: Design and Applications, DOI:
https://doi.org/10.1177/1464420716680499
2. Atig, A., Ben Sghaier, R., Seddik, R. and Fathallah, R. (2018). A simple analytical bending stress model of parabolic leaf spring. Proc. Institution of Mechanical Engineers, Part C: J. Mechanical Engineering Science
232, 10, 1838–1850.
3. Borkovic, P., Sustarsic, B., Malecevic, M., Zuzek, B., Podgornik, B. and Leskovsek, V. (2012). Fatigue-life behaviour and a lifetime assessment of a double-leaf spring using FEM-based software. Materials and Technology
46, 4, 345–349.
4. Gao, Y., Xu, C. and Fang, J. (2014). Study on the programed load spectrum of the body fatigue bench test. J. Mechanical Engineering
50, 4, 92–98.
5. Gao, Y., Han, J., Fang, J. and Wang, S. (2016). Programmed load spectrum for fatigue bench test of a vehicle body. SAE Int. J. Materials and Manufacturing
9, 3, 605–613.