How to cite this paper
Kumar, K & Aggarwal, M. (2015). Fatigue life prediction: A comparative study for a three layer EN45A parabolic leaf spring.Engineering Solid Mechanics, 3(3), 157-166.
Refrences
Abdullah, S., Refngah, F. N., Jalar, A., Chua, I. B., Ariffin, A. K., & Zaharim, A. (2008, November). FEA-based durability assessment: A case study using a parabolic leaf spring. In Proceedings of the 7th WSEAS international conference on System science and simulation in engineering (pp. 67-72). World Scientific and Engineering Academy and Society (WSEAS).
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.
Aggarwal, M. L., Khan, R. A., & Agrawal, V. P. (2005). Influence of shot peening intensity on fatigue design reliability of 65Si7 spring steel. Indian Journal of Engineering and Materials Sciences, 12(6), 515.
Aggarwal, M. L. (2012). Modeling of Shot Peening Parameters for Weight Reduction of EN45A Spring Steel Leaf Springs. AASRI Procedia, 3, 642-645.
?ern?, I., & Mayer, R. M. (2012). Fatigue of selected GRP composite components and joints with damage evaluation. Composite structures, 94(2), 664-670.
Refngah, F. A., Abdullah, S., Jalar, A., & Chua, L. B. (2009). Fatigue life evaluation of two types of steel leaf springs. International Journal of Mechanical and Materials Engineering (IJMME), 4(2), 136-140.
Kanbolat, A., Soner, M., Erdogus, T., & Karaagac, M. (2011).Parabolic leaf spring optimization and fatigue strength evaluation on the base of road load data, endurance rig tests and non linear finite element analysis (No. 2011-01-0438). SAE Technical Paper.
Karthik, J. P., Chaitanya, K. L., & Sasanka, C. T. (2012).Fatigue life prediction of a parabolic spring under non-constant amplitude proportional loading using finite element method. International Journal of Advanced Science and Technology, 46, 143-156.
Krishan Kumar et al (2013). CAE simulation approach for static and dynamic analysis of leaf springs. in the proceedings of3rd International Conference on Production and Industrial Engineering, 143-153
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.
Refngah, F. A., Abdullah, S., Jalar, A., & Chua, L. B. (2009a). Life assessment of a parabolic spring under cyclic strain loading.European Journal of Science Research, 28, 351-353.
Scuracchio, B. G., de Lima, N. B., & Schon, C. G. (2013).Role of residual stresses induced by double peening on fatigue durability of automotive leaf springs. Materials & Design, 47, 672-676.
Sustarsic, B., Borkovic, P., Echlseder, W., Gerstmayr, G., Javidi, A., & Sencic, B. (2011).Fatigue strength and microstructural features of spring steel. Integritetivekkonstrukcija, 11(1), 27-34.
SAE. (1980). Manual on Design and application of leaf spring, SAE HS-788.
Torabi, A., & Aliha, M. (2013). Determination of permissible defect size for solid axles loaded under fully-reversed rotating bending. Engineering Solid Mechanics, 1(1), 27-36.
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.
Aggarwal, M. L., Khan, R. A., & Agrawal, V. P. (2005). Influence of shot peening intensity on fatigue design reliability of 65Si7 spring steel. Indian Journal of Engineering and Materials Sciences, 12(6), 515.
Aggarwal, M. L. (2012). Modeling of Shot Peening Parameters for Weight Reduction of EN45A Spring Steel Leaf Springs. AASRI Procedia, 3, 642-645.
?ern?, I., & Mayer, R. M. (2012). Fatigue of selected GRP composite components and joints with damage evaluation. Composite structures, 94(2), 664-670.
Refngah, F. A., Abdullah, S., Jalar, A., & Chua, L. B. (2009). Fatigue life evaluation of two types of steel leaf springs. International Journal of Mechanical and Materials Engineering (IJMME), 4(2), 136-140.
Kanbolat, A., Soner, M., Erdogus, T., & Karaagac, M. (2011).Parabolic leaf spring optimization and fatigue strength evaluation on the base of road load data, endurance rig tests and non linear finite element analysis (No. 2011-01-0438). SAE Technical Paper.
Karthik, J. P., Chaitanya, K. L., & Sasanka, C. T. (2012).Fatigue life prediction of a parabolic spring under non-constant amplitude proportional loading using finite element method. International Journal of Advanced Science and Technology, 46, 143-156.
Krishan Kumar et al (2013). CAE simulation approach for static and dynamic analysis of leaf springs. in the proceedings of3rd International Conference on Production and Industrial Engineering, 143-153
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.
Refngah, F. A., Abdullah, S., Jalar, A., & Chua, L. B. (2009a). Life assessment of a parabolic spring under cyclic strain loading.European Journal of Science Research, 28, 351-353.
Scuracchio, B. G., de Lima, N. B., & Schon, C. G. (2013).Role of residual stresses induced by double peening on fatigue durability of automotive leaf springs. Materials & Design, 47, 672-676.
Sustarsic, B., Borkovic, P., Echlseder, W., Gerstmayr, G., Javidi, A., & Sencic, B. (2011).Fatigue strength and microstructural features of spring steel. Integritetivekkonstrukcija, 11(1), 27-34.
SAE. (1980). Manual on Design and application of leaf spring, SAE HS-788.
Torabi, A., & Aliha, M. (2013). Determination of permissible defect size for solid axles loaded under fully-reversed rotating bending. Engineering Solid Mechanics, 1(1), 27-36.