Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The paper presents the results of research undertaken to determine maximum contact pressures, wear and life of conical gears, taking account gear technological correction, tooth engagement and wear-generated changes in cur-vature of their involute profile. The calculations were made for a reduced cylindrical gear using a method developed by authors. The effect of applied conditions of tooth engagement in the frontal and internal sections of cylindrical gear ring is shown graphically. The initial maximum contact pressures will be higher in the internal section and the highest at the entry of single tooth engagement; the increasing of correcting coefficients will cause the fall of contact and tribocontact pressures; the optimum values of correction coefficients, at which the durability of the gear will be the highest were obtained.
Czasopismo
Rocznik
Tom
Strony
74--84
Opis fizyczny
Bibliogr. 12 poz., fig., tab.
Twórcy
autor
- Lublin University of Technology, Poland
autor
- Drohobych Ivan Franko State Pedagogical University, Drohobych, Ukraine
Bibliografia
- 1. Brauer, J., & Andersson, S. (2003). Simulation of wear in gears with flank interference – a mixed FE and analytical approach. Wear, 254(11), 1216-1232. doi:10.1016/s0043-1648(03)00338-7
- 2. Chernets, M. V. (2013). Influence of spur gear tooth engagement on its contact strength. Problems of Tribology, 69(3), 109-113.
- 3. Chernets, M. V., & Chernets, Y. M. (2014). Investigation of tooth engagement conditions in cylindrical involute gear on contact strength, wear and durability. Part 3. Changeable conditions of interaction in uncorrected engagement. Problems of Tribology, 74(4), 49-53.
- 4. Chernets, M. V., & Chernets, Y. M. (2015). Investigations of tooth engagement conditions in cylindrical involute gear on contact strength, wear and durability. Part 4. Changeable conditions of interaction in corrected engagement. Problems of Tribology, 75(1), 69-76.
- 5. Chernets, M. V., Kelbinski, E., & Yarema, R. Y. (2011). Generalized method for the evaluation of wear in cylindrical involute gears. Materials Science, 47(1), 45-51.
- 6. Chernets, M. V., Yarema, R. Y., & Chernets, Y. 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. Part 1. Service life and wear. Materials Science, 48(3), 289-300. doi:10.1007/s11003-012-9505-y
- 7. Drozdov, Yu. (1975) To the development of calculation methods on friction wear and modeling. Wear resistance (pp. 120-135). Moscow: Science.
- 8. Flodin, A., & Andersson, S. (1997). Simulation of mild wear in spur gears. Wear, 207(1-2), 16-23. doi:10.1016/s0043-1648(96)07467-4
- 9. Flodin, A., & Andersson. S. (1999). Wear simulation of spur gears. Tribotest, 5(3), 225-250. doi:10.1002/tt.3020050303
- 10. Grib, V. (1982). Solution of tribotechnical tasks with numerous methods. Moscow: Science.
- 11. 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. doi:10.1115/1.1899688
- 12. Pasta, A., & Mariotti, G. V. (2007). Finite element method analysis of a spur gear with a corrected profile. Journal of Strain Analysis for Engineering Design, 42(5), 281-292. doi:10.1243/03093247jsa284
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8f8c8f70-e97b-43cd-ae64-bff591caab10