Abstract
In this work, Cr2AlC samples with different purities were made by the spark plasma sintering (SPS) technique, and the effect of undesired Cr7C3 phase on the high-temperature oxidation performance at 1000 °C was examined. Also, the oxidation resistance of this MAX phase was compared with an oxidation-resistant CoNiCrAlY sample which was prepared with the SPS method. The results of oxidation tests after 200 h showed that the Cr2AlC sample with the lowest content of the Cr7C3 has better oxidation resistance than CoNiCrAlY sample. Exanimating the oxidation kinetics of Cr2AlC samples showed that these samples follow a near-cubic law, while the CoNiCrAlY sample follows parabolic kinetics. Microstructural studies showed that the oxide layer in the MAX phase samples grows uniformly and consists of the Al2O3 and Cr7C3, whereas in the CoNiCrAlY compound this layer has a non-uniform growth and it contains Al2O3 and spinel oxide phases. High variation in volume and stress was created through the non-uniform growth of the oxide layer in the CoNiCrAlY sample which leads to the creation of defects such as microcracks.
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H. Li, L. M. Peng, M. Gong, J. H. Zhao, L. H. He and C. Y. Guo, Ceramic International 30, 2004 (2289).
S. B. Li, H. X. Zhai, Y. Zhou and Z. L. Zhang, Si and C, Materials Science and Engineering A. 407, 2005 (315).
L. O. Xiao, S. B. Li, G. Song and W. G. Sloof, Journal of the European Ceramic Society 31, 2011 (1497).
S. B. Li, W. B. Yu, H. X. Zhai, G. M. Song, W. G. Sloof and S. Van der Zwaag, Journal of the European Ceramic Society 31, 2011 (217).
Y. Ming, C. Y. lin, M. Bing-chu and Z. Jiao-qun, Transactions of Nonferrous Metals Society of China 18, 2008 (82).
W. B. Tian, P. L. Wang, Y. M. Kan, G. J. Zhang, Y. X. Li and D. S. Yan, Materials Science and Engineering A 443, 2007 (229).
M. Hossein-Zadeh, E. Ghasali, O. Mirzaee, H. Reza, Mohammadian-Semnani, Y. Alizadeh and T. Ebadzadeh, Journal of Alloys and Compounds 795, 2019 (291).
S. Gupta, D. Filimonov, T. Palanisamy and M. W. Barsoum, Wear 265, 2008 (560).
A. Shamsipoor, M. Farvizi, M. Razavi, A. Keyvani, B. Mousavi and W. Pan, Surf. Coat. Technol. 401, 2020 (126239).
W. B. Tian, P. L. Wang, G. J. Zhang, Y. M. Kan, Y. X. Li and W. Pan, Journal of the American Ceramic Society 90, 2007 (1663).
T. Chen, P. M. Green, J. L. Jordan, J. M. Hampikian and N. N. Thadhani, Transactions 33A, 2001 (1737).
M. Griseri, B. Tunca, T. Lapauw, et al., Journal of the European Ceramic Society 39, 2019 (2973).
M. W. Barsoum, L. H. H. Duc, M. Radovic and T. El-Raghy, Journal of the Electrochemical Society 150, 2003 (166).
R. B. Mane, A. Haribabu, S. Rohila and B. B. Panigrahi, Fire Safety Journal 151, 2019 (81).
Y. C. Zhou, H. Y. Dong and X. H. Wang, Oxidation of Metals 61, 2004 (365).
D. B. Lee, T. D. Nguyen and S. W. Park, Oxidation of Metals 77, 2012 (275).
M. Sundberg, G. Malmqvist, A. Magnusson and T. El-Raghy, Ceramic International 30, 2004 (1899).
X. H. Wang and Y. C. Zhou, Oxidation of Metals 59, 2003 (303).
G. M. Song, V. Schnabel, C. Kwakernaak, S. van der Zwaag, J. M. Schneider and W. G. Sloof, High Temperature Materials and Processes 29, 2012 (205).
M. Haftani, M. S. Heydari, H. R. Baharvandi and N. Ehsani, International Journal of Refractory Metals and Hard Materials 61, 2016 (51).
S. Li, X. Chen, Y. Zhou and G. Song, Ceramic International 39, 2013 (2715).
Z. J. Lin, M. S. Li, J. Y. Wang and Y. C. Zhou, Acta Materialia 55, 2007 (6182).
D. B. Lee and T. Di, Journal of Alloys and Compounds 464, 2008 (434).
S. Li, L. Xiao, G. Song, X. Wu, W. G. Sloof and S. V. D. Zwaag, Journal of the American Ceramic Society 96, 2013 (892).
D. B. Lee, T. D. Nguyen, J. H. Han and S. W. Park, Corrosion Science 49, 2007 (3926).
D. B. Lee and S. W. Park, Oxidation of Metals 68, 2007 (211).
D. J. Tallman, B. Anasori and M. W. Barsoum, Materials Research Letters 1, 2013 (115).
Y. Rajkumar, B. M. Rahul, P. A. Akash and B. B. Panigrahi, International Journal of Applied Ceramic Technology 14, 2016 (63).
D. E. Hajas, M. Baben, B. Hallstedt, R. Iskandar, J. Mayer and J. M. Schneider, Surface and Coating Technology 206, 2011 (591).
J. Gonzalez-Julian, T. Go, D. E. Mack and R. Vaben, Surface and Coating Technology 340, 2018 (17).
J. A. Haynes, B. A. Pint, W. D. Porter and I. G. Wright, Journal Materials at High Temperatures 21, 2004 (87).
W. Tian, K. Vanmeensel, P. Wang, G. Zhang, Y. Li, J. Vleugels and O Vd Biest, Material Letter 61, 2007 (4442).
M. Ge, X. Wang, G. Li, C. Lu, J. Zhang and R. Tu, Journal of Wuhan University of Technology 34, 2019 (287).
J. W. Byeon, J. Liu, M. Hopkins, W. Fischer, N. Garimella, K. B. Park, M. P. Brady, M. Radovic, T. El-Raghy and Y. H. Sohn, Oxidation of Metals 68, 2007 (97).
M. Farvizi, T. Ebadzadeh, M. R. Vaezi, E. Y. Yoon, Y.-J. Kim, J. Y. Kang, H. S. Kim and A. Simchi, Wear 334–335, 2015 (35).
W. C. Oliver and G. M. Pharr, Journal of Material Research 7, 1992 (1564).
A. Shamsipoor, M. Farvizi, M. Razavi and A. Keyvani, Journal of Alloys and Compounds 815, 2020 (152345).
Y. Rajkumar and B. B. Panigrahi, Advanced Powder Technology 28, 2017 (732).
J. L. Smialek, Oxidation of Metal 83, 2015 (351).
H. Chen, Materials Characterization 136, 2018 (444).
P. Richer, M. Yandouzi, L. Beauvais and B. Jodoin, Surface and Coatings Technology 204, 2010 (3962).
W. G. Sloof and T. J. Nijdam, International Journal of Materials Research 100, 2009 (1318).
G. D. Girolamo, M. Alfano, L. Pagnotta, A. Taurino, J. Zekonyte and R. J. K. Wood, ASM International 21, 2012 (1989).
A. Feizabadi, M. Salehi Doolabi, S. K. Sadrnezhaad and M. Rezaei, Journal of Alloys and Compounds 746, 2018 (509).
R. D. Jackson, M. P. Taylor, H. E. Evans and X. H. Li, Oxidation of Metal 76, 2011 (259).
W. X. Weng, Y. M. Wang, Y. M. Liao, C. C. Li and Q. Li, Surface and Coatings Technology 352, 2018 (285).
A. Keyvani, M. Bahamirian and A. Kobayashi, Journal of Alloys and Compound 727, 2017 (1057).
X. Q. Cao, R. Vassen and D. Stoever, Journal of the European Ceramic Society 24, 2004 (1).
G. Jia and L. Yang, Physica B 405, 2010 (4561).
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Shamsipoor, A., Farvizi, M., Razavi, M. et al. Comparison of the High-Temperature Oxidation Behavior of Cr2AlC MAX Phase and CoNiCrAlY Compounds. Oxid Met 95, 1–21 (2021). https://doi.org/10.1007/s11085-020-10008-5
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DOI: https://doi.org/10.1007/s11085-020-10008-5