How to cite this paper
Kumar, K & Aggarwal, M. (2015). Finite element analysis and optimization of a mono parabolic leaf spring using CAE software.Engineering Solid Mechanics, 3(2), 85-92.
Refrences
Aggarwal, M. L., & Chawla, P. S. (2007). Issues in fretting fatigue design of shot peened leaf springs. Indian Journal of Engineering and Materials Sciences, 14(6), 414.
Aggarwal, M. L., Agrawal, V. P., & Khan, R. A. (2006). A stress approach model for predictions of fatigue life by shot peening of EN45A spring steel. International journal of fatigue, 28(12), 1845-1853.
Aggarwal, M. L., Khan, R. A., & Agrawal, V. P. (2006). Effect of surface roughness on the fretting fatigue behaviour of EN45A spring steel. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 220(8), 1325-1331.
Corvi, A. (1990). A preliminary approach to composite beam design using FEM analysis. Composite structures, 16(1), 259-275.
Dewangan, R. K., Patnaik, M., & Yadav, N. (2012). Minimization of stress of a parabolic leaf spring by simulated annealing algorithm. International Journal of Engineering research and Applications, 2(4), 457-460.
Kumar, K., & Aggarwal, M. L. (2013). Computer aided FEA simulation of EN45A parabolic leaf spring. International Journal of Industrial Engineering Computations, 4(2), 297-304.
Kumar, M. S., & Vijayarangan, S. (2007). Analytical and experimental studies on fatigue life prediction of steel and composite multi-leaf spring for light passenger vehicles using life data analysis. Materials science, 13(2), 141-146.
Patel, S. K., Jain, A. K., & Gandhi, P. (2012). A Review of Effect of Material on Fatigue Life of Leaf Spring. VSRD International journal of mechanical, automobile and production engineering, 2(4), 161-165.
Patnaik, M., Koushik, L. P., & Mathew, M. (2012). Determination of camber and leaf span of a parabolic leaf spring for optimized stress and displacement using artificial neural networks. International Journal of Modern Engineering Research, 2(4), 2771-2773.
Patunkar, M. M., & Dolas, D. R. (2011). Modelling and Analysis of Composite leaf spring under the static load condition by using FEA. International Journal of Mechanical & Industrial Engineering, 1(1-2011), 1-4.
Refngah, F. A., Abdullah, S., Jalar, A., & Chua, L. B. (2009). Life assessment of a parabolic spring under cyclic strain loading. European Journal of Science Research, 28, 351-353.
Shankar, G. S. S., & Vijayarangan, S. (2006). Mono composite leaf spring for light weight vehicle–design, end joint analysis and testing. Materials science, 12(3), 220-225.
Yadav, N., Dewangan, R., & Patnaik, M. (2012). Minimization of stress in a parabolic leaf spring by local algorithm for constant & priorities. International Journal of Engineering Research and Applications, 2(4), 1897-1899.
Yu, W. J., & Kim, H. C. (1988). Double tapered FRP beam for automotive suspension leaf spring. Composite structures, 9(4), 279-300.
Aggarwal, M. L., Agrawal, V. P., & Khan, R. A. (2006). A stress approach model for predictions of fatigue life by shot peening of EN45A spring steel. International journal of fatigue, 28(12), 1845-1853.
Aggarwal, M. L., Khan, R. A., & Agrawal, V. P. (2006). Effect of surface roughness on the fretting fatigue behaviour of EN45A spring steel. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 220(8), 1325-1331.
Corvi, A. (1990). A preliminary approach to composite beam design using FEM analysis. Composite structures, 16(1), 259-275.
Dewangan, R. K., Patnaik, M., & Yadav, N. (2012). Minimization of stress of a parabolic leaf spring by simulated annealing algorithm. International Journal of Engineering research and Applications, 2(4), 457-460.
Kumar, K., & Aggarwal, M. L. (2013). Computer aided FEA simulation of EN45A parabolic leaf spring. International Journal of Industrial Engineering Computations, 4(2), 297-304.
Kumar, M. S., & Vijayarangan, S. (2007). Analytical and experimental studies on fatigue life prediction of steel and composite multi-leaf spring for light passenger vehicles using life data analysis. Materials science, 13(2), 141-146.
Patel, S. K., Jain, A. K., & Gandhi, P. (2012). A Review of Effect of Material on Fatigue Life of Leaf Spring. VSRD International journal of mechanical, automobile and production engineering, 2(4), 161-165.
Patnaik, M., Koushik, L. P., & Mathew, M. (2012). Determination of camber and leaf span of a parabolic leaf spring for optimized stress and displacement using artificial neural networks. International Journal of Modern Engineering Research, 2(4), 2771-2773.
Patunkar, M. M., & Dolas, D. R. (2011). Modelling and Analysis of Composite leaf spring under the static load condition by using FEA. International Journal of Mechanical & Industrial Engineering, 1(1-2011), 1-4.
Refngah, F. A., Abdullah, S., Jalar, A., & Chua, L. B. (2009). Life assessment of a parabolic spring under cyclic strain loading. European Journal of Science Research, 28, 351-353.
Shankar, G. S. S., & Vijayarangan, S. (2006). Mono composite leaf spring for light weight vehicle–design, end joint analysis and testing. Materials science, 12(3), 220-225.
Yadav, N., Dewangan, R., & Patnaik, M. (2012). Minimization of stress in a parabolic leaf spring by local algorithm for constant & priorities. International Journal of Engineering Research and Applications, 2(4), 1897-1899.
Yu, W. J., & Kim, H. C. (1988). Double tapered FRP beam for automotive suspension leaf spring. Composite structures, 9(4), 279-300.