Analytical assessment of the sliding friction coefficient influence on durability, wear and contact pressure in spur gears

Chernets, Myron; Kornienko, A.; Chernets, Yu.; Fedorchuk, S.

doi:10.5937/fme2102472C

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FME Transactions

2021, vol. 49, br. 2, str. 472-479

Analitička procena uticaja koeficijenta kliznog trenja na kontaktni pritisak, trajnost i habanje cilindričnih zupčanika

Chernets Myron, Kornienko A., Chernets Yu., Fedorchuk S.

National Aviation University, Aerospace faculty, Kyiv, Ukraine

e-adresa: myron.czerniec@gmail.com

Ključne reči: involute spur gears; sliding friction coefficient; durability; contact pressure; wear

Sažetak

Istražuje se uticaj koeficijenta kliznog trenja na trajnost prenosnog sklopa sastavljenog od čeličnih zupčanika i sklopa sastavljenog od metalnopolimernih zupčanika među kojima su poliamidni zupčanici ojačani ugljeničnim i stakleno disperzijskim vlaknima. Takođe su uzeti u obzir uslovi sprezanja zubaca (dvoparna-jednoparnadvoparna sprega) i promena uslova tribološkog kontakta izazvanih habanjem. Prenosni sklop sa zupčanicima od kompozita sa ugljenikom ima najdužu trajnost u poređenju sa drugim tipovima sprege pri svakoj promeni koeficijenta kliznog trenja. Maksimalna vrednost kontaktnog pritiska je u tački ulaska u jednoparnu spregu. Istražena je i promena maksimalne vrednosti kontaktnog pritiska izazvana habanjem zubaca i utvrđena je pravilnost javljanja ove projave. Proučena je kinetika habanja profila zubaca. Maksimalno habanje nastaje u tački ulaska u jednoparnu ali i dvoparnu spregu. Proces habanja čeličnih zubaca i sklopova koji imaju čelične i kompozitne zupce je gotovo isti osim u tački izlaska zubaca iz sprege.

	Reference
	Andreikiv, A.E., Chernets, M.V. (1991) Evaluation of the contact interaction of rubbing machine elements. Kiev: Naukova Dumka, (in Ukrainian)
	Brauer, J., Andersson, S. (2003) Simulation of wear in gears with flank interference: A mixed FE and analytical approach. Wear, 254(11): 1216-1232
1	Cathelin, J., Letzelter, E., Guingand, M., de Vaujany, J.P., Chazeau, L. (2013) Experimental and Numerical Study of a Loaded Cylindrical PA66 Gear. Journal of Mechanical Design, 135(4): 89-98
1	Chernets, M. (2019) Method of calculation of tribotechnical characteristics of the metal-polymer gear, reinforced with glass fiber, taking into account the correction of tooth. Eksploatacja i Niezawodnosc / Maintenance and Reliability, 21(4): 546-552
1	Chernets, M.V., Shil'ko, S.V., Pashechko, M.I., Barshch, M. (2018) Wear Resistance of Glassand Carbon-Filled Polyamide Composites for Metal-Polymer Gears. Journal of Friction and Wear, 39(5): 361-364
	Chernets, M.V., Chernets, Ju.M. (2016) Evaluation of the strength, wear, and durability of a corrected cylindrical involute gearing, with due regard for the tooth engagement conditions. Journal of Friction and Wear, 37(1): 71-77
	Chernets, M.V., Chernets, Yu.M. (2017) A technique for calculating tribotechnical characteristics of tractive cylindrical gear of VL-10 locomotive. Journal of Friction and Wear, Vol. 37, No. 6, pp. 566-572
	Chernets', M.V., Kelbinski, E., Yarema, R.Ya. (2011) Generalized method for the evaluation of wear in cylindrical involute gears. Materials Science, 47(1): 45-51
	Chernets', M.V., Yarema, R.Ya., Chernets', Yu.M. (2012) A method for the evaluation of the influence of correction and wear of the teeth of a cylindrical gear on its durability and strength: Service life and wear. Materials Science, Part 1, 48(3): 289-300
1	Chernets, M., Chernets, J. (2017) The simulation of influence of engagement conditions and technological teeth correction on contact strength, wear and durability of cylindrical spur gear of electric locomotive. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 231(1): 57-62
	Chernets, M.V., Shil'ko, S.V., Starzhinsky, V.E. (2020) Estimation of Bearing Capacity and Wear Resistance of Spur Gear Meshing Taking into Account Tooth Profile Correction and Sliding Friction Coefficient. u: Goldfarb, V., Trubachev, E., Barmina, N. [ur.] New Approaches to Gear Design and Production, Springer International Publishing, 261-272
	Flodin, A., Andersson, S. (1999) Wear simulation of spur gears. Tribotest, 5(3): 225-249
	Flodin, A., Andersson, S. (2001) A simplified model for wear prediction in helical gears. Wear, 249(3-4): 285-292
	Grib, V. (1982) Solution of tribotechnical tasks with numerous methods. Moscow: Science, (in Russian)
	Kahraman, A., Bajpai, P., Anderson, N.E. (2005) Influence of Tooth Profile Deviations on Helical Gear Wear. Journal of Mechanical Design, 127(4): 656-663
	Kala'cska, G., Kozma, M., Debaets, P., Keresztes, R., Zsidai, L. (2005) Friction and Wear of Engineering Polymer Gears. u: World Tribology Congress III, September, Proc, Washington: ASMEDC, 12-16
1	Keresztes, R., Kalacska, G. (2008) Friction of polymer/steel gear pairs. Plastics and Rubber, 45: 236-242
	Kindrachuk, M., Volchenko, A., Volchenko, D., Volchenko, N., Poliakov, P., Tisov, O., Kornienko, A. (2019) Polymeres with enhanced energy capacity modified by semiconductor materials. Functional Materials, 26(3): 629-634
1	Kolivand, M., Kahraman, A. (2010) An Ease-Off Based Method for Loaded Tooth Contact Analysis of Hypoid Gears Having Local and Global Surface Deviations. Journal of Mechanical Design, 132(7): 710041-0710048
	Pasta, A., Mariotti, V.G. (2007) Finite element method analysis of a spur gear with a corrected profile. Journal of Strain Analysis for Engineering Design, 42(5): 281-292
	Shalobaev, E.V., Kudinov, A.T. (1998) Plastic Gears in Instrument Mechanisms. Gomel: Metal-Polymer Research Institute, (in Russian)
	Shil'ko, S.V., Starzhinskii, V. (1993) Prediction of Wear Resistance of Gearing with Wheels Made of Reinforced Composites. Journal of Friction and Wear, 14(3): 7-13
	Shil'ko, S.V., Starzhinsky, V., Petrokovets, E., Chernous, D. (2013) Two-Level Calculation Method for Tribojoints Made of Disperse-Reinforced Composites: Part 1. Journal of Friction and Wear, 34(1): 65-69
4	Stachowiak, G.W. (1997) Numerical characterization of wear particle morphology. u: Hutchings I.M. [ur.] New Directions in Tribology, Bury St Edmunds: Mechanical Engineering Publications Ltd, pp. 371-389
1	Sukumaran, J., Ando, M., de Baets, P., Rodriguez, V., Szabadi, L., Kalacska, G., Paepegem, V. (2012) Modelling gear contact with twin-disc setup. Tribology International, 49: 1-7

O članku

jezik rada: engleski
vrsta rada: neklasifikovan
DOI: 10.5937/fme2102472C
primljen: 15.01.2021.
prihvaćen: 15.03.2021.
objavljen u SCIndeksu: 29.04.2021.

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