How to cite this paper
Arora, V., Bhushan, G & Aggarwal, M. (2015). Static structural CAE analysis of symmetrical 65Si7 leaf springs in automotive vehicles.Engineering Solid Mechanics, 3(1), 59-74.
Refrences
Aggarwal, M. L., Khan, R. A., & Agrawal, V. P. (2006 a). Optimization of micro welds in leaf springs used in automotive vehicles. Indian Journal of Engineering and Materials Sciences, 13(3), 217-220.
Aggarwal, M. L., Agrawal, V. P., & Khan, R. A. (2006 b). A stress approach model for predictions of fatigue life by shot peening of EN45A spring steel. International journal of fatigue, 28(12), 1845-1853.
Arora, V., Aggarwal, M. L., & Bhushan, G. (2011). A comparative study of CAE and experimental results of leaf springs in automotive vehicles. International journal of engineering science and technology, 3(9), 6856-6866.
Chantranuwathana, S., Kadekheaw P., Preedanood, P., Wichienprakarn,P, Kruo-ongarjnukool,P (2009) ‘Experimental Verification of Leaf Spring Model by Using a Leaf Spring Test Rig’,23rd conference of Mechanical Engineering Network of Thailand.
Fuentes, J. J., Aguilar, H. J., Rodr?guez, J. A., & Herrera, E. J. (2009). Premature fracture in automobile leaf springs. Engineering Failure Analysis, 16(2), 648-655.
Junior, G. S., Voorwald, H. J. C., Vieira, L. F. S., Cioffi, M. O. H., & Bonora, R. G. (2010). Evaluation of WC-10Ni thermal spray coating with shot peening on the fatigue strength of AISI 4340 steel. Procedia Engineering, 2(1), 649-656.
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.
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.
SAE Spring Committee. (1990). Spring Design Manual. HS-744, AE-11, Society of Automotive Engineers.
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., Agrawal, V. P., & Khan, R. A. (2006 b). A stress approach model for predictions of fatigue life by shot peening of EN45A spring steel. International journal of fatigue, 28(12), 1845-1853.
Arora, V., Aggarwal, M. L., & Bhushan, G. (2011). A comparative study of CAE and experimental results of leaf springs in automotive vehicles. International journal of engineering science and technology, 3(9), 6856-6866.
Chantranuwathana, S., Kadekheaw P., Preedanood, P., Wichienprakarn,P, Kruo-ongarjnukool,P (2009) ‘Experimental Verification of Leaf Spring Model by Using a Leaf Spring Test Rig’,23rd conference of Mechanical Engineering Network of Thailand.
Fuentes, J. J., Aguilar, H. J., Rodr?guez, J. A., & Herrera, E. J. (2009). Premature fracture in automobile leaf springs. Engineering Failure Analysis, 16(2), 648-655.
Junior, G. S., Voorwald, H. J. C., Vieira, L. F. S., Cioffi, M. O. H., & Bonora, R. G. (2010). Evaluation of WC-10Ni thermal spray coating with shot peening on the fatigue strength of AISI 4340 steel. Procedia Engineering, 2(1), 649-656.
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.
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.
SAE Spring Committee. (1990). Spring Design Manual. HS-744, AE-11, Society of Automotive Engineers.
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.