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Rotating Bending Fatigue Endurance and Effect of Controlled Corrosion on the AISI-SAE 6063-T5 Aluminum Alloy.

Published online by Cambridge University Press:  14 February 2012

G. M. Domínguez Almaraz ,
J. L. Ávila Ambriz ,
E. Cadenas Calderón  and
J. J. Villalón López
G. M. Domínguez Almaraz
Affiliation:
Facultad de Ingeniería Mecánica, Universidad Michoacana de San Nicolás de Hidalgo (UMSNH), Santiago Tapia No. 403, Col. Centro, Morelia, Michoacán 58000, México.
J. L. Ávila Ambriz
Affiliation:
Facultad de Ingeniería Mecánica, Universidad Michoacana de San Nicolás de Hidalgo (UMSNH), Santiago Tapia No. 403, Col. Centro, Morelia, Michoacán 58000, México.
E. Cadenas Calderón
Affiliation:
Facultad de Ingeniería Mecánica, Universidad Michoacana de San Nicolás de Hidalgo (UMSNH), Santiago Tapia No. 403, Col. Centro, Morelia, Michoacán 58000, México.
J. J. Villalón López
Affiliation:
Facultad de Ingeniería Mecánica, Universidad Michoacana de San Nicolás de Hidalgo (UMSNH), Santiago Tapia No. 403, Col. Centro, Morelia, Michoacán 58000, México.
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Abstract

Rotating bending fatigue test are carried out on the aluminum alloy 6063-T5 for corroded and non corroded specimens. Special attention is devoted to fatigue endurance reduction caused by controlled surface corrosion on corroded specimens. Corrosion attack is implemented by submersion of specimens in an acid solution for: two, four and six minutes in order to induce three degrees of surface corrosion. The corrosion agent is a solution of hydrochloric acid with a PH close to 0.8 and solution concentration of 38%. Rotating bending fatigue tests at frequency of 50 Hz, room temperature and without environmental humidity control are carried out on 4 types of specimens: without corrosion and 2, 4, and 6 minutes immersed in the solution of hydrochloric acid. Results are analyzed regarding the corrosion effect on fatigue endurance and conclusion are enlisted concerning rotating bending fatigue tests and corrosion attack on this aluminum alloy.

Type
Articles
Information
MRS Online Proceedings Library (OPL) , Volume 1373: Symposium S4 – Advanced Structural Materials—2011 , 2012 , imrc-1373-s4-21
Copyright
Copyright © Materials Research Society 2012

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References

REFERENCES

1. Fouda, A.S., Al-Sarawy, A.A., Ahmed, F.Sh., and El-Abbasy, H.M., Corrosion Science, Vol. 51 (2009), pp. 485492.Google Scholar
2. Hirsch, J., “ Virtual Fabrication of Aluminum Products (Microstructural Modeling in Industrial Aluminium Fabrication Process )”, Ed. Wiley-VCH, First Edition (2006), 381 pages.Google Scholar
3. Miller, W.S., Zhuang, L., Bottema, J., Wittebrood, A.J., De Smet, P., Haszler, A., Vieregge, A., Materials Science & Engineering A280 (2000), pp. 3749.Google Scholar
4. Scamans, G.M., Birbilis, N., Buchheit, R.G., Shreir’s Corrosion, Vol. 3 (2009), pp. 19742010.Google Scholar
5. Villalobos-Gutiérrez, C.J., Gedler-Chacón, G.E., La Barbera-Sosa, J.G., Piñeiro, A., Staia, M.H., Lesage, J., Chicot, D., Mesmacque, G. and Puchi-Cabrera, E.S., Surface and Coating Technology, Vol.202 (2008), pp. 45724577.Google Scholar
6. Dominguez Almaraz, G. M., Guzmán Tapia, M., Patent No. 276818, Mexico (2010); “ High Speed Rotating Bending Fatigue Machine ”.Google Scholar
7. Wang, Q.Y., Kawagoishi, N., Chen, Q., ”, Scripta Materialia, Vol. 49 (2003), 711716.Google Scholar
8. Isekar, N. P., Jyothirmayi, A., Sundararajan, G., Intern. Journal of Fatigue, Vol. 33 (2011), pp. 12681276.Google Scholar
9. Dey, S., Mallick, A. B., Chattoraj, I., Advanced Materials Research, Vol. 117 (2010), pp. 4348.Google Scholar
10. Słowik, J., Łagoda, T., Intern. Journal of Fatigue, Vol. 33 (2011), pp. 13041312.Google Scholar
11. Sakane, M., Zhang, S., Kim, T.-J., Intern. Journal of Fatigue, Vol. 33 (2011), pp. 959968.Google Scholar
12. Domínguez Almaraz, G.M., Mercado Lemus, V.H., Villalón López, J.J., Procedia Engineering, Vol.33 (2011), pp. 805813.Google Scholar
13. Hung Tra, T., Seino, M., Sakaguchi, M., Okasaki, M, J. of Solid Mechanics and Material Egineering, Vol. 4 (2010), pp. 840848.Google Scholar
14. El Haddad, M.H., Topper, T.H. and Smith, K.N., Vol. 11 (1979), pp. 573584.Google Scholar