Trends in Machine Design

Compression Helical Spring has various applications in automobile. Spring stores the energy of deformation due to applied load and remains its original position, shape or size after the load is removed. Springs are further classified as leaf springs, springs. The design parameters of spring manufacturing consists of spring rate, pitch, free length, wire diameter, flat/round ends, circular ends, number of turns etc. Various researchers have conduct observations on springs with software packages like Corio, MATLAB, and Minitab. Our goal is to determine relationship between wire diameter and number of turns on load bearing capacity. The concept of Full Factorial Design is studied for obtaining the desired result. ANOVA is carried out for the validity of the model.

Minitab, OVAT, Matlab, MS Excel

Patel AP, Patel VA. Optimization of helical spring for minimum weight by using harmony search algorithm. Int J Appl Innov Eng Manage. 2014 Mar;3:313–7.

Khurd SN, Kulkarni PP, Katekar SD. Probabilistic design of helical coil spring for Translational invariance by using Finite Element Method. International Research Journal of Engineering and Technology (IRJET) e-ISSN. 2015:2395–0056.

Sastry MN, Devi KD, Reddy KH, et al. Reliability based design optimization of helical compression spring using probabilistic response surface methodology. International Conference on Advances In Engineering, Science And Management (ICAESM-2012). 2012:329–334.

Kolahan F, Tavakoli A, Soheili S, Abachizadeh M, Tadayon G. Optimization of helical compression springs using simulated annealing and ant colony optimization. Proceedings of the 5th WSEAS Int Conf on System Science and Simulation in Engineering 2006:422–426.

Chaudhari C, Shinde S. Application of Design of Experiment (DOE) Method for Optimum Parameters of Mahindra Bolero Leaf Spring. IJERMCE. 2017;2:2456–1290.

Sharma M, Sharma P, Sharma S. Analysis of Steel Made Leaf Spring using FEA Tool ANSYS. International Journal of New Technology and Research. 2015;1(2).

Agrawal GK. Helical torsion springs for minimum weight by geometric programming. Journal of Optimization Theory and Applications. 1978 Jun 1;25(2):307–10.

Gupta M. Optimum Design for a Composite Hollow Helical Spring By Particle Swarm Optimization. 2017;4(7).

Shaik S, Mehar A, Pasha MA. Optimal Design of Helical Torsion Spring for Engine Valve Timing Mechanism. IJERT. 2016;5(6).

Jeremiah R, Balu S. Stress Analysis & Optimization of leaf spring by using Taguchi method. National Journal on Advance in Building Sciences and Mechanics. 2015;6(1).

Mahajan Y, Vyavahare AY, Peshwe DR. Failure Analysis of Tension Spring. IJERT. 2014;3(5).

Gupta N, Purohit M, Potghan D. Analysis of Hollow coil Helical Extension spring and the study of Optimizing the weight. IJESRT. 2017.

Patil DS, Mangrulkar KS, Jagtap ST. Weight Optimization of Helical Compression Spring. International Journal For Innovative Research In Multidisciplinary Field. 2016;2(11).

Bakhshesh M, Bakhshesh M. Optimization of steel helical spring by composite spring. International journal of multidisciplinary science and engineering. 2012 Jun;3(6).

Dighewar AB. Optimizing Design of Spring Using Genetic Algorithm. International Journal of Engineering Sciences & Research Technology. 2014;34:929–31.