References
- Hlwan HHS, Htay HW, Myint T. Design and contact stress analysis of helical gear for light-weight car. Proceedings of 105th The IIER International Conference. Bangkok. Thailand. 5th – 6th June 2017.
- Wenkatesh B. Prabhakar SV, Deva PS, Investigate the combined effect of gear ratio, helix angle, facewidth and module on bending and compressive stress of steel alloy helical gear. 3rd International Conference on Materials Processing and Characterisation. 2014;6: 1865-1870.
- James K, John K. Effect of gear design variables on the dynamic stress of multistage gears. Innovative Systems Design and Engineering. 2012;2:30-42.
- Murali MV, Ajit SL. Influence of module and pressure angle on contact stresses in spur gears. International Journal of Mechanical Engineering and Robotics Research. 2016;3:224-228.
- Dyaneshwar S, Mangrulkar KS. Effect of backlash on bending stresses in spur Gears. International Journal of Scientific Development and Research. 2016;7:349-354.
- Zvonko S, Mileta R, Bozidar R, Dragan R, Zivoslav A. The ınfluence of gear parameters on the surface durability of gear flanks. Strojarstvo. 2011;53(5):383-387.
- Nijazi I, Sadullah A. The influence of sliding speed and specific sliding of the interval meshing gears. 10th International Research/Expert Conference Trends in the Development of Machinery and Associated Technology. Barcelona, Spain, 11-15 September 2006.
- Karadere G, Yilmaz I. Investigation of the effects of profile shift in helical gear mechanisms with analytical and numerical methods. World Journal of Mechanics. 2018;8:200-209.
- Mujammil A, Mushtaq AC. Optimization of addendum modification for bending strength of involute spur gear. International Engineering Research Journal. 2015;1093-1097.
- Vishal S. Finite element analysis of helical gear pair for bending and contact stresses. International Journal of Computer Engineering in Research Trends. 2018;5:136-140.
- Bozca M, Dikmen F. Optimisation of geometric parameters of ears under variable loading condition. Advanced Materials Research. 2012;1005-1010.
- Bozca M. Optimisation of effective design parameters for an automotive transmission gearbox to reduce tooth bending stress. Modern Mechanical Engineering. 2017;7:35-36.
- Bozca M, Fietkau P. Empirical model based optimization of gearbox geometric design parameters to reduce rattle noise in an automotive transmission. Mechanism and Machine Theory. 2010;1599-1612.
- Bozca M. Torsional vibration model based optimization of gearbox geometric design parameters to reduce rattle noise in an automotive transmission. Mechanism and Machine Theory. 2010;1583-1598.
- Bozca M. Transmission error model-based optimisation of the geometric design parameters of an automotive transmission gearbox to reduce gear-rattle noise. Applied Acoustics. 2017;247-259.
- ISO 6336–3: calculation of load capacity of spur and helical gears, part 3: calculation of tooth bending strength.
- ISO 6336–2: calculation of load capacity of spur and helical gears, part 2: calculation of surface durability (pitting).