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Characterization Microstructural and Mechanical of X-60 Steel Heat-Treated

Published online by Cambridge University Press:  20 December 2012

N. López Perrusquia*
Affiliation:
Instituto Politécnico Nacional, SEPI-ESIME, Adolfo López Mateos, Zacatenco. México.D.F. 07738. México.
J. A. Ortega Herrera
Affiliation:
Instituto Politécnico Nacional, SEPI-ESIME, Adolfo López Mateos, Zacatenco. México.D.F. 07738. México.
M.A. Doñu Ruiz
Affiliation:
Instituto Politécnico Nacional, SEPI-ESIME, Adolfo López Mateos, Zacatenco. México.D.F. 07738. México.
V. J. Cortes Suarez
Affiliation:
Univerisdad Autónoma Metropolitana Unidad Azcapotzalco, Av. San Pablo 180 Azcapotzalco 02200, México .D.F. Área de Ciencia de los materiales.
L. D. Cruz Rosado
Affiliation:
Universidad Politécnica del Valle de México, Grupo Ciencia e Ingeniería de Materiales. Av. Mexiquense, Tultitlán. Edo. México. México.
*
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Abstract

In this paper was study the effect of heat treatment on mechanical properties of an API X-60 steel used for storage and transportation of hydrocarbons.In the first stage evaluation are mechanical properties of steel heat treated by the technique of the three-point test according to ASTM 399-90 was carried out. In the second stage, characterization of the type of failure and microstructure through optical microscopy (OM) was determined; also heat treated samples were then mechanically tested for hardness (HRC) and nano-indentation. The presence of alloying elements by scanning electron microscopy (SEM) and the fracture surfaces generated in the steel with varying times, temperatures and cooling medium generated by different modes of solicitation (Bending), likewise with loading rates were determined. The results revealed a ductile fracture and microstructures (PF) ferrite-pearlite (DP), bainite -ferrite (BF) and martensite-retained and martensite/retained austenite (MA). Finally, this article discusses the effect of heat treatment followed by precipitation hardenable of steel API X-60 on the mechanical properties

Type
Articles
Copyright
Copyright © Materials Research Society 2012

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References

REFERENCES

Wang, Wei et al. . Mater. Sci. and Engin. A 502, 3844 (2009).CrossRefGoogle Scholar
Chen, C.Y., Yen, H.W., Kao, F.H., Li, W.C., Huang, C.Y., Yang, J.R., Wang, S.H.. Mater. Sci. and Engin. A 499, 162166 (2009).CrossRefGoogle Scholar
Ananta Nagu, G, Amarnath, , Namboodhiri, T K G, Bull. Mater. Sci. 26, 435439 (2003).CrossRefGoogle Scholar
Salleh, S.H., Omar, M.Z., Syarif, J., Abdullah, S., J. of Sci. Res. 34, 8391 (2009).Google Scholar
Todorov, R. P. and Khristov, Kh. G., Metal Science and Heat Treat. 46, 4953 (2004).CrossRefGoogle Scholar
da Silva, G. F., Tavares, S. M., Pardal, J. M., Silva, M. R., de Abreu, H. F. G., J. Mater Sci. 46, 77377744 (2011).CrossRefGoogle Scholar
Venegas, V., Caleyo, F., Baudin, T., Hallen, J.M., Penelle, R., Corro Sci. 5, 11401145 (2009).CrossRefGoogle Scholar
Chaowen, L., Wang, Y., Chen, Y., J. Mater Sci. 46, 64246431 (2011).Google Scholar
Huang, F., Li, X. G., Liu, J., Qu, Y. M., Jia, J., Du, C. W., J Mater. Sci. 46, 715722 (2011).CrossRefGoogle Scholar
Hurtado Noreña, C., Bruzzoni, P., Mater. Scien and Eng. A 527, 410416 (2010)CrossRefGoogle Scholar
Sojka, J., Váňová, P., Jonšta, P., Rytířová, L., Jerome, , Acta Metall. Slova, 12, 462468 (2006).Google Scholar
Abdur Razzak, M.. Bull. Mater. Sci. 34, 14391445 (2011).CrossRefGoogle Scholar
Motagi, B.S., Bhosle, Ramesh. Intern. Journ. of Engin. Res. and Devel. 2, 0713 (2012).Google Scholar