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Comprehensive Review of Gear Trains with Applications

    Dharshini S Deepan Kumar K Dhinesh babu V

International Research Journal on Advanced Science Hub, 2020, Volume 2, Issue 2, Pages 9-15
10.47392/irjash.2020.15

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Abstract

A mechanical effectiveness review is a necessary step in the multi-d.o.f design process. Work aims to
create a system that uses a gear train which can be used to lift weights and loads. We made necessary
calculations for driving load to achieve end results. Paper shows higher expectations and assumptions
when designing specific components for valuable work. A think of that helped us prepare a prototype with
less effort to lift required loads. The study conducted in this review paper demonstrates Gear train's
optimization techniques to reduce load failures for product design enhancement and optimization.
Keywords:
    Micro pitting EHL model design parameters Gear Train
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(2020). Comprehensive Review of Gear Trains with Applications. International Research Journal on Advanced Science Hub, 2(2), 9-15. doi: 10.47392/irjash.2020.15
Dharshini S; Deepan Kumar K; Dhinesh babu V. "Comprehensive Review of Gear Trains with Applications". International Research Journal on Advanced Science Hub, 2, 2, 2020, 9-15. doi: 10.47392/irjash.2020.15
(2020). 'Comprehensive Review of Gear Trains with Applications', International Research Journal on Advanced Science Hub, 2(2), pp. 9-15. doi: 10.47392/irjash.2020.15
Comprehensive Review of Gear Trains with Applications. International Research Journal on Advanced Science Hub, 2020; 2(2): 9-15. doi: 10.47392/irjash.2020.15
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[1]. H. Xu, A. Kahraman, N.E. Anderson, D.G. Maddock. “Prediction of Mechanical efficiency of parallel-Axis gear pairs”. Journal of Mechanical DesignJANUARY 2007, Vol. 129 DOI: 10.1115/1.2359478.

[2]. J. Hong, D. Talbot, A. Kahraman. “Load distribution analysis of clearance-fit spline joints using finite elements”. Mechanism and Machine Theory 74 (2014) 42–57. http://dx.doi.org/10.1016/j.mechmachtheory. 2013.11.007.

[3].A.Kahraman, H.Ligata, A. Singh. “Influence of ring rim thickness on planetary gear set behavior”. Journal of Mechanical Design FEBRUARY 2010, Vol. 132 / 021002 DOI: 10.1115/1.4000699.

[4]. H. Ligata, A. Kahraman and A. Singh. “An Experimental study of the influence of Manufacturing errors on the planetary gear stresses and planet load sharing”. Journal of Mechanical Design. APRIL 2008, Vol. 130 / 041701. DOI: 10.1115/1.2885194.

[5]. A AI-Shyyab and A Kahraman. “A nonlinear dynamic model for planetary gear sets” Proc. IMechE Vol. 221 Part K: J. Multibody Dynamics JMBD92 © IMechE 2007 DOI: 10.1243/14644193JMBD92.

[6]. A AI-Shyyab and A Kahraman. “Nonlinear dynamic analysis of a multi-mesh gear train using multi-term harmonic balance method: period-one motions”. Journal of Sound and Vibration 284 (2005) 151–172. DOI:10.1016/j.jsv.2004.06.010.

[7].M. Inalpolat, A. Kahraman. “A theoretical and experimental investigation of modulation side bands of planetary gear sets”. Journal of Sound and Vibration 323 (2009) 677–696. DOI: 10.1016 /j.jsv. 2009.01.004.

[8].A. Kahraman and H. Ding. “A Methodology to Predict Surface Wear of PlanetaryGears under Dynamic Conditions”. Mechanics Based Design of Structures and Machines: An International Journal, 38:4, 493-515, DOI:10.1080/15397734.2010.501312.

[9].C. Yuksel and A. Kahraman. “Dynamic tooth loads of planetary gear sets having tooth profile”. Mechanism and Machine Theory 39 (2004) 695–715. DOI:10.1016/j.mechmachtheory.2004.03.001 .

[10]. A Kahraman, H. Ligata, K. Kienzle, D.M. Zini. “A Kinematics and Power flow analysis methodology for automatic transmission planetary gear trains”. Journal of Vibration and Acoustics JULY 2004, Vol. 126 DOI: 10.1115/1.1760561#.

[11].Zaigang Chen, Yiminshao and Daizhong Su “Dynamic simulation of planetary gear set with flexible spur ring gear” Journal of Sound and Vibration 332 (2013) 7191–7204.

[12]. VijayakumarAmbarisha and Robert G. Parker has a presented a paper on “Nonlinear dynamics of planetary gears using analytical and FEA model”. Journal of Sound and Vibration302 (2007) 577–595.

[13]. Tristan M. Ericson, Robert G. Parker. “Planetary gear model vibration experiments and correlation against lumped parameter and finite element models”. Journal of Sound and Vibration 332 (2013) 2350–2375.

[14].Zaigang Chen, Yimin Shao. “Dynamic simulation of planetary gear with root crackin ring gear”. Engineering Failure Analysis 31 (2013) 8–18.

[15]. X. Gu and P. Velex, “A model to study influence of planet position errors in planetary gears”. Journal of Sound and Vibration 331 (2012) 4554–4574.

[16]. Woohyung Kim, JiYeong Lee, Jintai Chung. “Dynamics analysis for a planetary gear with time varying pressure angles and contact ratios”. Journal of Sound and Vibration 331 (2012) 883–901.

[17]. Zhonghong Bu, Geng Liu, Liyan Wu. “Modal analyses of herringbone planetary gear train with journal bearing” Mechanism and Machine Theory 54 (2012) 99–115.

[18]. X. Gu and P. Velex “The dynamic simulation of eccentricity errors in planetary gears”. Mechanism and Machine Theory 61 (2013) 14–29.

[19].Avinash Sign. “Load sharing behaviour in epicyclic gears: physical explanation and generalized formulation”. Mechanism and Machine Theory 45 (2010) 511-530.

[20]. S. Theodossiades and S. Natsiavas. “Nonlinear dynamics of gear pair systems with periodic stiffness and backlash” Journal of Sound and vibration(2000) 229(2), 287310 Article No. jsvi.1999.2490.

[21]. Haidong Yu, Peter Eberhard, Yong Zhao, Haowang. “Sharing behaviour of load transmission on gear pair systems actuated by parallel arrangements of multiple pinions”. Mechanis

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