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Numerical Analysis of Geometrical Parameters Effect on Contact Zone Under Fretting Fatigue Loading

Mohamed Ikhlef Chaouch
Mohamed Ikhlef Chaouch
, 
Abdelghani Baltach
Abdelghani Baltach
 and 
Ali Benhamena
Ali Benhamena
   | Dec 30, 2022
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Published Online: Dec 30, 2022
Page range: 5 - 20
DOI: https://doi.org/10.2478/adms-2022-0015
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© 2022 Mohamed Ikhlef Chaouch et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

1. Vingsbo, O., Söderberg, S. On fretting maps. Wear 126 (1988) 131-147.10.1016/0043-1648(88)90134-2 Search in Google Scholar

2. Abbasi, F., Majzoobi, G. H., Mendiguren, J. A review of the effects of cyclic contact loading on fretting fatigue behavior. Advances in Mechanical Engineering 12 (2020) 1687814020957175.10.1177/1687814020957175 Search in Google Scholar

3. Benhamena, A., Talha, A., Benseddiq, N., Amrouche, A., Mesmacque, G., Benguediab, M. Effect of clamping force on fretting fatigue behaviour of bolted assemblies: Case of couple steel–aluminium. Materials Science and Engineering: A 527 (2010) 6413-6421.10.1016/j.msea.2010.06.080 Search in Google Scholar

4. Gu, H., Jiao, L., Yan, P., Ma, B., Chen, S., Feng, L., Wang, X. Crack behavior of Ti-6Al-4V alloy combined conformal contact fretting, non-conformal contact fretting and simple fatigue. International Journal of Fatigue 139 (2020) 105741.10.1016/j.ijfatigue.2020.105741 Search in Google Scholar

5. Hamadouche, F., Benzaama, H., Mokhtari, M., Tahar, M. A. Influence of contact parameters in fretting-fatigue contact 3D problems. Frattura ed Integrità Strutturale 15 (2021) 228-240.10.3221/IGF-ESIS.55.17 Search in Google Scholar

6. Benhamena, A., Amrouche, A., Talha, A.,Benseddiq, N. Effect of contact forces on fretting fatigue behavior of bolted plates: Numerical and experimental analysis. Tribology International 48 (2012) 237-245.10.1016/j.triboint.2011.12.008 Search in Google Scholar

7. Vázquez, J., Carpinteri, A., Bohórquez, L., Vantadori, S. Fretting fatigue investigation on Al 7075-T651 alloy: Experimental, analytical and numerical analysis. Tribology International 135 (2019) 478-487.10.1016/j.triboint.2019.03.028 Search in Google Scholar

8. Luke, M., Burdack, M., Moroz, S., Varfolomeev, I. Experimental and numerical study on crack initiation under fretting fatigue loading. International Journal of Fatigue 86 (2016) 24-33.10.1016/j.ijfatigue.2015.09.022 Search in Google Scholar

9. Pinto, A. L., Cardoso, R. A., Talemi, R., Araújo, J. A. Fretting fatigue under variable amplitude loading considering partial and gross slip regimes: Numerical analysis. Tribology International 146 (2020) 106199.10.1016/j.triboint.2020.106199 Search in Google Scholar

10. Cattaneo, C. Sul contatto de due corpielastici: Distribuzione locale deglisforzi. Rendicontidel l’Accademianazionale dei Lincei 6 (1938) 342-349. Search in Google Scholar

11. Mindlin, R. D. Compliance of elastic bodies in contact. ASME Journal of Applied Mechanics 16 (1949) 259–268.10.1115/1.4009973 Search in Google Scholar

12. Dhaka, P., Prakash, R. V. Effect of Contact Geometry on the Contact Stresses in a Flat with Round Edge Contact. Frattura ed Integrità Strutturale 13 (2019) 630-638.10.3221/IGF-ESIS.48.60 Search in Google Scholar

13. Zhang, T., McHugh, P. E., Leen, S. B. Computational study on the effect of contact geometry on fretting behaviour. Wear 271 (2011) 1462-1480.10.1016/j.wear.2010.11.017 Search in Google Scholar

14. Chakherlou, T. N., Shahriary, P., Akbari, A. Experimental and numerical investigation on the fretting fatigue behavior of cold expanded Al-alloy 2024-T3 plates. Engineering Failure Analysis 123 (2021) 105324.10.1016/j.engfailanal.2021.105324 Search in Google Scholar

15. Walvekar, A. A., Leonard, B. D., Sadeghi, F., Jalalahmadi, B., Bolander, N. An experimental study and fatigue damage model for fretting fatigue. Tribology International 79 (2014) 183-196.10.1016/j.triboint.2014.06.006 Search in Google Scholar

16. Vantadori, S., Zanichelli, A. Fretting-fatigue analysis of shot-peened aluminium and titanium test specimens. Fatigue & Fracture of Engineering Materials & Structures 44 (2021) 397-409.10.1111/ffe.13367 Search in Google Scholar

17. Deng, Q., Yin, X., Wang, D., Wahab, M. A. Numerical analysis of crack propagation in fretting fatigue specimen repaired by stop hole method. International Journal of Fatigue 156 (2022) 106640.10.1016/j.ijfatigue.2021.106640 Search in Google Scholar

18. Zaleski, K, Skoczylas, A. Effect of slide burnishing on the surface layer and fatigue life of titanium alloy parts. Advances in Materials Science 19 (2019) 35-45.10.2478/adms-2019-0020 Search in Google Scholar

19. Dobromirski, J. M. Variables of fretting process: are there 50 of them? ASTM Special Technical Publication 1159 (1992) 60-60.10.1520/STP25816S Search in Google Scholar

20. Hertz, H. Über die Berührung fester elastischer Körper. Journal für die reine und ange wandte Mathematik 92 (1982) 156-171.10.1515/9783112342404-004 Search in Google Scholar

21. Ruiz, C., Boddington, P. H. B., Chen, K. C. An investigation of fatigue and fretting in a dovetail joint. Experimental Mechanics 24 (1984) 208-217.10.1007/BF02323167 Search in Google Scholar

22. ABAQUS/Standard User’s Manual, Version 6.14. Search in Google Scholar

23. Vázquez, J., Erena, D., Navarro, C., Domínguez, J. 3D contact effects in fretting fatigue tests. Theoretical and Applied Fracture Mechanics 118 (2020) 103260.10.1016/j.tafmec.2022.103260 Search in Google Scholar

24. Kim, H. S., Mall, S., Ghoshal, A. Two-dimensional and three-dimensional finite element analysis of finite contact width on fretting fatigue. Materials Transactions (2011) 1012201243-1012201243.10.2320/matertrans.M2010268 Search in Google Scholar

25. Namjoshi, S. A., Jain, V. K., Mall, S. Effects of shot-peening on fretting-fatigue behavior of Ti-6Al-4V. Journal of Engineering Materials and Technology 124 (2002) 222-228.10.1115/1.1448323 Search in Google Scholar

26. Hojjati-Talemi, R., Wahab, M. A., De Pauw, J., De Baets, P. Prediction of fretting fatigue crack initiation and propagation lifetime for cylindrical contact configuration. Tribology International 76 (2014) 73-91.10.1016/j.triboint.2014.02.017 Search in Google Scholar

27. Hojjati-Talemi, R., Wahab, M. A. Fretting fatigue crack initiation lifetime predictor tool: Using damage mechanics approach. Tribology International 60 (2013) 176-186.10.1016/j.triboint.2012.10.028 Search in Google Scholar

28. Hills, D. A and Nowell, D. Mechanics of fretting fatigue. Solid mechanics and its applications 30 (1994).10.1007/978-94-015-8281-0 Search in Google Scholar

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