1. bookTom 14 (2020): Zeszyt 3 (September 2020)
Informacje o czasopiśmie
Format
Czasopismo
eISSN
2300-5319
Pierwsze wydanie
22 Jan 2014
Częstotliwość wydawania
4 razy w roku
Języki
Angielski
Otwarty dostęp

Stress Assessment of Gear Teeth in Epicyclic Gear Train for Radial Sedimentation Tank

Data publikacji: 20 Nov 2020
Tom & Zeszyt: Tom 14 (2020) - Zeszyt 3 (September 2020)
Zakres stron: 121 - 127
Otrzymano: 21 Jan 2020
Przyjęty: 21 Aug 2020
Informacje o czasopiśmie
Format
Czasopismo
eISSN
2300-5319
Pierwsze wydanie
22 Jan 2014
Częstotliwość wydawania
4 razy w roku
Języki
Angielski

1. ANSI/AGMA 6123-C16 (2016), Design Manual for Enclosed Epicyclic Gear Drives.Search in Google Scholar

2. Batsch M., Markowski T., Zubrzycki M. (2017), Mathematical model of internal pin gear mesh (in Polish), STAL Metale Nowe technologie. Koła zębate - projektowanie, wytwarzanie, pomiary, eksploatacja, 13–16.Search in Google Scholar

3. Budzik G., Kozik B., Pacana J. (2013), Defining influence of load conditions on distribution and value of stresses in dual-power-path gear wheels applying FEM, Aircraft Engineering and Aerospace Technology, Vol. 85, No. 6, 453–459.Search in Google Scholar

4. Budzik G., Pacana J. (2008), Analysis of the correctness of the FEM solution depending on the type and number of finite elements used (in Polish), Acta Mechanica Slovaca, 3-A/2008, t. 12, Technical University of Kosice, 327–332.Search in Google Scholar

5. Cooley C.G., Parker R.G. (2014) A review of planetary and epicyclic gear dynamics and vibrations research, Applied Mechanics Reviews, Vol. 66, No. 4, Article Number 040804Search in Google Scholar

6. Dadley D.W. (2002), Handbook of Practical Gear Design, CRC Press LLC.Search in Google Scholar

7. Fernandez del Rincon A., Viadero F., Iglesias M., García P., de-Juan A., Sancibrian R. (2013) A model for the study of meshing stiffness in spur gear transmissions, Mechanism and Machine Theory, Vol. 61, 30–58, doi.org/10.1016/j.mechmachtheory.2012.10.008Search in Google Scholar

8. Iglesias M., Fernandez del Rincon A., de-Juan A., Garcia P., Diez-Ibarbia A., Viadero F. (2017) Planetary transmission load sharing: Manufacturing errors and system configuration study, Mechanism and Machine Theory, Vol. 111, 21–38, https://doi.org/10.1016/j.mechmachtheory.2016.12.010.10.1016/j.mechmachtheory.2016.12.010Search in Google Scholar

9. ISO 6336-1 (2006), Calculation of load capacity of spur and helical gears — Part 1: Basic principles, introduction and general influence factors.Search in Google Scholar

10. ISO 6336-2 (2006), Calculation of load capacity of spur and helical gears — Part 2: Calculation of surface durability (pitting).Search in Google Scholar

11. ISO 6336-3 (2006), Calculation of load capacity of spur and helical gears — Part 3: Calculation of tooth bending strength.Search in Google Scholar

12. Kopecki H., Witek L. (2000), Influence of the type and number of elements on the error and convergence of the FEM solution on the example of the stability analysis of a compressed member (in Polish). V Konferencja Naukowo-Techniczna, Military University of Technology, (WAT), IPPT PAN, Warsaw - Rynia.Search in Google Scholar

13. Ligata H., Kahraman A., Singh A. (2008), An experimental study of the influence of manufacturing errors on the planetary gear stresses and planet load sharing, Journal of Mechanical Design, Transactions of the ASME, Vol. 130, No. 4, 577–595.Search in Google Scholar

14. Markowski T., Budzik G., Pacana J. (2010), Criteria for selecting a numerical model for the strength calculations of a cylindrical gear with the FEM method (in Polish), Modelowanie Inżynierskie, Vol. 8, No. 39, 135–142.Search in Google Scholar

15. Marques P.M.T., Martins R.C., Seabra, J.H.O. (2016) Power loss and load distribution models including frictional effects for spur and helical gears, Mechanism and Machine Theory, Vol. 96, Part 1, 1–25, DOI: 10.1016/j.mechmachtheory.2015.09.00510.1016/j.mechmachtheory.2015.09.005Search in Google Scholar

16. Marques P.M.T., Martins R.C., Seabra, J.H.O. (2017) Analytical load sharing and mesh stiffness model for spur/helical and internal/external gears – Towards constant mesh stiffness gear design, Mechanism and Machine Theory, Vol. 113, 126–140, doi.org/10.1016/j.mechmachtheory.2017.03.007Search in Google Scholar

17. Parker R.G., Lin J. (2004) Mesh Phasing Relationships in Planetary and Epicyclic Gears, Journal of Mechanical Design, Vol. 126(2), 365–370, https://doi.org/10.1115/1.166789210.1115/1.1667892Search in Google Scholar

18. Rusiński E., Czmochowski J., Smolnicki T. (2000), Advanced finite element method in load-bearing structures (in Polish), The Wrocław University of Technology Publishing House, Wrocław.Search in Google Scholar

19. Sánchez M.B., Pleguezuelos M., Pedrero J. I. (2019), Strength model for bending and pitting calculations of internal spur gears, Mechanism and Machine Theory, Vol. 133, 691–705, https://doi.org/10.1016/j.mechmachtheory.2018.12.01610.1016/j.mechmachtheory.2018.12.016Search in Google Scholar

20. Singh A. (2005), Application of a System Level Model to Study the Planetary Load Sharing Behavior, Journal of Mechanical Design, Vol. 127, 469–476.Search in Google Scholar

21. Singh A. (2010), Load sharing behavior in epicyclic gears: Physical explanation and generalized formulation, Mechanism and Machine Theory, Vol. 45, 511–530.Search in Google Scholar

22. Tsai S.-J., Huang G.-L., Ye S.-Y. (2015) Gear meshing analysis of planetary gear sets with a floating sun gear, Mechanism and Machine Theory, Vol. 84, 145–163, https://doi.org/10.1016/j.mechmachtheory.2014.03.00110.1016/j.mechmachtheory.2014.03.001Search in Google Scholar

23. Tsai S.-J., Ye S.-Y. (2018), A computerized approach for loaded tooth contact analysis of planetary gear drives considering relevant deformations, Mechanism and Machine Theory, Vol. 122, 252–278, https://doi.org/10.1016/j.mechmachtheory.2017.12.02610.1016/j.mechmachtheory.2017.12.026Search in Google Scholar

24. Wiktor J. (2004), Analytical and numerical methods of analysis of geometric parameters, motion disturbances and strength of cylindrical gears (in Polish), The Rzeszów University of Technology Publishing House, Rzeszów.Search in Google Scholar

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