Abstract
In this research, an Al-Si protective coating was applied on the surface of an IN713LC specimen using pack cementation method. Surface-treated and untreated specimens were exposed to low-cycle fatigue by tension–tension loading under total strain control at 1173 K (900 °C) in air. Based on the obtained results, the hardening/softening, cyclic stress–strain, and fatigue life curves were plotted and analyzed. The results showed that both the single-stage and two-stage coatings improved the fatigue life of the substrate. However, owing to more silicon content of single-stage coating compared to that of two-stage coating, the effect of single-stage coating was superior. The stress response of the treated material was lower compared with the untreated one. Observations of the specimen section and fracture surface examinations were used to analyze fatigue behavior of both coated and uncoated materials.
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L. Kunz, P. Lukas and R. Konecna: Int. J. Fatigue, 2010, vol. 32, pp. 913-908.
M.J. Donachie and S.J. Donachie: Superalloys: a technical guide, John Wiley & Sons, Inc., New York, 2002, pp. 334-293.
K. Slámecka, J. Pokluda, M. Kianicová, J. Horníková, K. Obrtlík: Engineering Fracture Mechanics 110 (2013) 459.
Y. Tamarin: Protective coatings for turbine blades, Materials Park: ASM International (2002).
L. Swadzba, B. Formanek, A. Maciejny: Int.J.Mater. Prod. Tech. 8 (1993) 155.
G.W. Goward, L.W. Canon: J. Eng. Gas Turbines Power 110 (1988) 150.
P. Hancock, M. Malik: Materials for Advance Power Engineering 1 (1994), 685.
Z.D. Xiang, P.K. Datta: Mater Sci Eng A 356 (2003) 136.
T.A. Kirche, B.G. McMordie, A. McCarter: Surface and Coating Technology 68 (1994) 32.
D.K. Das, V. Singh, S.V. Joshi: Metall Trans A 29 (1998) 2173.
Y. Zhang, D. Knowles, P. Withers: Scripta Mater 37 (1997) 815.
Antolovich SD, Liu S, Baur R: Metall Trans A 12 (1981) 472.
M. Valsan, D. H. Sastry, K. Bhanu, S. L. Mannan: Metall Trans A 25 (1994) 159.
V. Singh, M. Sundararaman, W. Chen, R. P. Wahi: Metall Trans A 22 (1991) 499.
Peng Zhang, Qiang Zhu, Chao Hu, Chuan-jie Wang, Gang Chen, He-yong Qin: Materials and Design 69 (2015) 12.
Yu Jinjiang, Sun Xiaofeng, Jin Tao, Zhao Nairen, Guan Hengrong, Hu Zhuangqi: Mater Sci Eng A 527 (2010) 2379.
Martin Juliš, Karel Obrtlík, Simona Pospíšilová, Tomáš Podrábský, Jaroslav Polák: Procedia Engineering 2 (2010) 1983.
K. Obrtlík, S. Pospíšilová, M. Juliš, T. Podrábsky´, J. Polák: Int. J. Fatigue 41 (2012) 101.
K. Rahmani, S. Nategh: Mater Sci Eng A 486 (2008) 686.
Zhaokuang C, Jinjiang Y, Xiaofeng S, Hengrong G, Zhuangqi H: Mater Sci Eng A 488 (2008) 389.
L.Z. He, Q. Zheng, X.F. Sun, H.R. Guan, Z.Q. Hu, A.K. Tieu, C. Lu, H.T. Zhu: Mater Sci Eng A 402 (2005) 33.
Duyi Ye, Dehai Ping, Zhenlin Wang, Haohao Xu, Xiaoyu Mei,Changwei Xu, Xiaolin Chen: Mater Sci Eng A 373 (2004) 54.
Zhihong Zhong, Yuefeng Gu, Yong Yuan, Tadaharu Yokokawa, Hiroshi Harada: Mater Sci Eng A 552 (2012) 434.
M. Marchionni, G.A. Osinkolu, G. Onofrio: Int. J. Fatigue 24 (2002) 1261.
R.I. Stephens, A. Fatemi, R.R. Stephens, and H.O. Fuchs: Metal Fatigue in Engineering, 2nd ed., John Wiley & Sons, New York, 2001, pp. 496–501.
SD. Antolovich, R. Baur: Metall Trans A 12 (1981) 473.
L. J. Chen, P.K. Liaw, H. Wang, Y.H. He, R.L. McDaniels, L. Jiang, B. Yang, D. L. Klarstrom: Mechanics of Materials 36 (2004) 85.
T.C. Totemeier, J. E. King: Metall Trans A 27 (1996) 353.
V. Brien, B. Decamps: Mater Sci Eng A 316 (2001) 18.
H. Zhoua, Y. Roa, H. Harada, Y. Aoki, M. Arai: Mater Sci Eng A 381 (2004) 20.
SK. Hwang, HN. Lee, BH. Yoon: Metall Trans A 20 (1989) 2793.
J. Bannantine, J. Comer, J. Handrock: Fundamentals of metal fatigue analysis, 1990, Prentice-Hall, Englewood Cliffs, NJ.
K. Shirvani, M. Saremi, A. Nishikata and T. Tsuru: Metall Trans A 43 (2002) 2622.
Pennefather RC, Boone DH: Int J. Press. Vessels Piping 66 (1996) 351.
P. Deb, D.H. Boone, T.F. Manley: JVST A 5 (1987) 3366.
K. Obrtlík, S. Pospisilova, M. Julis, L. Celko, T. Podrabsky: Metal 5 (2012) 23.
R.P. Wahi,J. Auerswald,D. Mukherji,A. Dudka, H.J. Fecht, W. Chen: Int. J. Fatigue 19 (1998) 89.
B.D. Cullity: Elements of X-ray diffraction, 1978, Addison-Wesley Publishing, Reading, MA.
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Mansuri, M., Hadavi, S.M.M. & Zare, E. Effect of Al-Si Pack Cementation Diffusion Coating on High-Temperature Low-Cycle Fatigue Behavior of Inconel 713LC. Metall Mater Trans A 47, 293–300 (2016). https://doi.org/10.1007/s11661-015-3201-0
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DOI: https://doi.org/10.1007/s11661-015-3201-0