Subject Areas : journal of New Materials
1 - School of Metallurgy and Materials, College of engineering, Tehran, Iran
Keywords:
Abstract :
References:
1. Dae Won Yun, S.M. Seo, H.W. Jeong, Y.S. Yoo, The cyclic oxidation behaviour of Ni-based superalloy GTD-111 with sulphur impurities at 1100°C, Corrosion Science 90 (2015) 392–401.
2. N. S. Cheruvu, K. S. Chan, G. R. Leverant, Cyclic Oxidation Behavior of Aluminide, Platinum Modified Aluminide, and MCrAlY Coatings on GTD-111, Journal of Engineering for Gas Turbines and Power Vol. 122, JANUARY 2000, 50-54.
3. Physical Metallurgy (Fifth Edition) 2014, Pages 2215-2290 22 - Physical Metallurgy of the Nickel-Based Superalloy Author links open overlay panel, R.C. Reed, C.M.F. Rae.
4. H Chen, X Hou, Bioxidant corrosion behaviour of CoNiCrAlY coated IN738 at 1100 °C, Corrosion Science, Volume 151, 1 May 2019, Pages 154-162.
5. C.R.C. Lima, J.M. Guilemany, Adhesion improvements of Thermal Barrier Coatings with HVOF, thermally sprayed bond coats, Surface & Coatings Technology 201 (2007) 4694–4701.
6. H. Chen, A. Rushworth, Effects of oxide stringers on the β-phase depletion behaviour in thermally sprayed CoNiCrAlY coatings during isothermal oxidation, Journal of Materials Science & Technology 45 (2020) 108–116
7. ASTM-E8
8. ASTM-E21
9. Vivek Ratna, D.S. Sarma, INFLUENCE OF THERMAL FATIGUE ON THE MICROSTRUCTURE OF A MScripta METALLURGICA Vol. 29, 1993, pp. 467-472.
10. PARASKEVAS KONTIS, ZHUANGMING LI, MIKAEL SEGERSA¨LL, JOHAN J. MOVERARE, ROGER C. REED, DIERK RAABE, and BAPTISTE GAULT, The Role of Oxidized Carbides on Thermal Mechanical Performance of Polycrystalline Superalloys,
11. YANG Jinxia, ZHENG Qi, SUN Xiaofeng, GUAN Hengrong, and HU Zhuangqi, Thermal fatigue behavior of K465 superalloy, RARE METAL, Vol. 25, No. 3, June 2006, p. 202-209.
12. Dorota Kubacka, Martin Weiser, Erdmann Spiecker: Early stages of high-temperature oxidation of Ni- and Co-base model superalloys: A comparative study using rapid thermal annealing and advanced electron microscopy; Corrosion Science 191 (2021) 109744.
13. Kevin Vattappara, Vahid A. Hosseini Physical and thermodynamic simulations of gamma-prime precipitation in Haynes 282 using arc heat treatment, Journal of Alloys and Compounds Volume 870, 25 July 2021, 159484
14. SHI Zhen-xue, LI Jia-rong, LIU Shi zhong, isothermal oxidation behavior of single crystal superalloy DD6, Trans. Nonferrous Met. Soc. China 22(2012) 534_538.
15. Jiangdong Cao, Junsong Zhang , Ruifang Chen, Yunxia, Yinqun Hua High temperature oxidation behavior of Ni-based superalloy GH202, Materials Characterization 118 (2016) 122–128.
16. J. Brennemana, J. Weib, Z. Sunb, L. Liub, G. Zoub, Y. Zhoua, Oxidation behavior of GTD111 Ni-based superalloy at 900 ◦C in air J. Brennemana, J. Weib, Z. Sun , L. Liub, G. Zoub, Y. Zhoua,b, Corrosion Science 100 (2015) 267–274 l. 29, pp
17. Sadegh Pour-Ali, Reza Tavangar, Faezeh Akhtari, Seyedsina Hejazi High-temperature oxidation behavior of GTD-111 Ni-based superalloy with an ultrafine-grained surface at 900°C -472, 1
18. A. Pfennig, B. Fedelich, Oxidation of single crystal PWA 1483 at 950°C in flowing air, Corrosion Science 50 (2008)
19. Jingchen Li, Yuting Wu, Liang Liu, Ru Lin Peng, Jinghao Xu, Jian He, Hongbo Guo, The inhibiting effect of Re-rich layer on the interdiffusion between NiAl and Ni3Al-based superalloy and its degradation, Journal of Alloys and Compounds, Volume 957, 2023,170404,
20. Li Zhang, M. Mahrukh, Di Wang, Xian-Jin Liao, Xiao-Tao Luo, Chang-Jiu Li, Oxidation protection dynamics of NiAl droplet by inflight in-situ carbon deoxidation during atmospheric plasma spraying for high performance NiAl coatings, Journal of Materials Processing Technology, Volume 319 2023,118088.
21. Jibo Huang, Wen Sun, Xin Chu, Haiming Lan, Yingchun Xie, Dongdong Ye, Renzhong Huang, Effect of high temperature exposure on microstructure, mechanical and tribological properties of cold sprayed NiCoCrAlTaY coatings, Surface and Coatings Technology, Volume 462, 2023, 129466,
1. Dae Won Yun, S.M. Seo, H.W. Jeong, Y.S. Yoo, The cyclic oxidation behaviour of Ni-based superalloy GTD-111 with sulphur impurities at 1100°C, Corrosion Science 90 (2015) 392–401.
2. N. S. Cheruvu, K. S. Chan, G. R. Leverant, Cyclic Oxidation Behavior of Aluminide, Platinum Modified Aluminide, and MCrAlY Coatings on GTD-111, Journal of Engineering for Gas Turbines and Power Vol. 122, JANUARY 2000, 50-54.
3. Physical Metallurgy (Fifth Edition) 2014, Pages 2215-2290 22 - Physical Metallurgy of the Nickel-Based Superalloy Author links open overlay panel, R.C. Reed, C.M.F. Rae.
4. H Chen, X Hou, Bioxidant corrosion behaviour of CoNiCrAlY coated IN738 at 1100 °C, Corrosion Science, Volume 151, 1 May 2019, Pages 154-162.
5. C.R.C. Lima, J.M. Guilemany, Adhesion improvements of Thermal Barrier Coatings with HVOF, thermally sprayed bond coats, Surface & Coatings Technology 201 (2007) 4694–4701.
6. H. Chen, A. Rushworth, Effects of oxide stringers on the β-phase depletion behaviour in thermally sprayed CoNiCrAlY coatings during isothermal oxidation, Journal of Materials Science & Technology 45 (2020) 108–116
7. ASTM-E8
8. ASTM-E21
9. Vivek Ratna, D.S. Sarma, INFLUENCE OF THERMAL FATIGUE ON THE MICROSTRUCTURE OF A MScripta METALLURGICA Vol. 29, 1993, pp. 467-472.
10. PARASKEVAS KONTIS, ZHUANGMING LI, MIKAEL SEGERSA¨LL, JOHAN J. MOVERARE, ROGER C. REED, DIERK RAABE, and BAPTISTE GAULT, The Role of Oxidized Carbides on Thermal Mechanical Performance of Polycrystalline Superalloys,
11. YANG Jinxia, ZHENG Qi, SUN Xiaofeng, GUAN Hengrong, and HU Zhuangqi, Thermal fatigue behavior of K465 superalloy, RARE METAL, Vol. 25, No. 3, June 2006, p. 202-209.
12. Dorota Kubacka, Martin Weiser, Erdmann Spiecker: Early stages of high-temperature oxidation of Ni- and Co-base model superalloys: A comparative study using rapid thermal annealing and advanced electron microscopy; Corrosion Science 191 (2021) 109744.
13. Kevin Vattappara, Vahid A. Hosseini Physical and thermodynamic simulations of gamma-prime precipitation in Haynes 282 using arc heat treatment, Journal of Alloys and Compounds Volume 870, 25 July 2021, 159484
14. SHI Zhen-xue, LI Jia-rong, LIU Shi zhong, isothermal oxidation behavior of single crystal superalloy DD6, Trans. Nonferrous Met. Soc. China 22(2012) 534_538.
15. Jiangdong Cao, Junsong Zhang , Ruifang Chen, Yunxia, Yinqun Hua High temperature oxidation behavior of Ni-based superalloy GH202, Materials Characterization 118 (2016) 122–128.
16. J. Brennemana, J. Weib, Z. Sunb, L. Liub, G. Zoub, Y. Zhoua, Oxidation behavior of GTD111 Ni-based superalloy at 900 ◦C in air J. Brennemana, J. Weib, Z. Sun , L. Liub, G. Zoub, Y. Zhoua,b, Corrosion Science 100 (2015) 267–274 l. 29, pp
17. Sadegh Pour-Ali, Reza Tavangar, Faezeh Akhtari, Seyedsina Hejazi High-temperature oxidation behavior of GTD-111 Ni-based superalloy with an ultrafine-grained surface at 900°C -472, 1
18. A. Pfennig, B. Fedelich, Oxidation of single crystal PWA 1483 at 950°C in flowing air, Corrosion Science 50 (2008)
19. Jingchen Li, Yuting Wu, Liang Liu, Ru Lin Peng, Jinghao Xu, Jian He, Hongbo Guo, The inhibiting effect of Re-rich layer on the interdiffusion between NiAl and Ni3Al-based superalloy and its degradation, Journal of Alloys and Compounds, Volume 957, 2023,170404,
20. Li Zhang, M. Mahrukh, Di Wang, Xian-Jin Liao, Xiao-Tao Luo, Chang-Jiu Li, Oxidation protection dynamics of NiAl droplet by inflight in-situ carbon deoxidation during atmospheric plasma spraying for high performance NiAl coatings, Journal of Materials Processing Technology, Volume 319 2023,118088.
21. Jibo Huang, Wen Sun, Xin Chu, Haiming Lan, Yingchun Xie, Dongdong Ye, Renzhong Huang, Effect of high temperature exposure on microstructure, mechanical and tribological properties of cold sprayed NiCoCrAlTaY coatings, Surface and Coatings Technology, Volume 462, 2023, 129466,
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