Thermal cycling behavior of nanostructured and conventional yttria-stabilized zirconia thermal barrier coatings via air plasma spray 被引量：1

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摘要 Two thermal barrier coating(TBC)systems comprising NiCoCrAlY bond coat onto a second-generation Ni-based single crystal superalloy and nano structured4 mol%Y_(2)O_(3)-stabilized ZrO_(2)(4YSZ)and conventional yttria-stabilized zirconia(YSZ)top coats upwardly were deposited by approaches of arc ion plating(AIP)and air plasma spray(APS).As indicted by the experimental results,the 4YSZ TBCs exhibited superior thermal cycling resistance compared with conventional YSZ TBCs at 1100℃.The 4YSZ top coat exhibited higher toughness due to its intrinsic property of nanocrystalline structure,homogeneously distributed and diverse directions of pores and preexisted cracks.The cracks and spallation in 4YSZ TBCs occurred at the interface of top coat and thermally grown oxide(TGO)layer.Instead,the crack initiation and propagation started along the lamellar interface in the top coat of conventional YSZ TBCs,leading to the rapid crack bridging and subsequent spalling of top coat.Additionally,before and after oxidation,the 4YSZ top coat showed higher hardness compared to conventional YSZ top coat.Degradation mechanism and distribution of residual stress in TGO for the 4YSZ TBCs were investigated in the current study.

作者 Cheng-Yang Jiang Min Feng Chun-Tang Yu Ze-Bin Bao Sheng-Long Zhu Fu-Hui Wang

机构地区 Shenyang National Laboratory for Materials Science Institute of Metal Research

出处《Rare Metals》 SCIE EI CAS CSCD 2023年第11期3859-3869,共11页 稀有金属（英文版）

基金 financially supported by the National Natural Science Foundation of China (Nos.51671202 and51301184) the Defense Industrial Technology Development Program (No.JCKY2016404C001) the“Liaoning Baiqianwan Talents Program.”。

关键词 TBC NANOCRYSTALLINE TGO Thermal cycling TOUGHNESS

分类号 TG174.4 [金属学及工艺—金属表面处理]

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参考文献3

1Kai Yan,Hong-Bo Guo,Hui Peng,Sheng-Kai Gong.Oxidation behaviour of electron beam physical vapour deposition β-NiAlHf coatings at 1100℃ in dry and humid atmospheres[J].Rare Metals,2016,35(7):513-519. 被引量：6
2Jing-Yong Sun,Yan-Ling Pei,Shu-Suo Li,Hu Zhang,Sheng-Kai Gong.Improved mechanical properties of Ni-rich Ni3Al coatings produced by EB-PVD for repairing single crystal blades[J].Rare Metals,2017,36(7):556-561. 被引量：3
3Bo He,Ying Li,Hong-Yu Zhang,Duo-Li Wu,Li-Hong Liang,Hua Wei.Phase transformation of ZrO2 doped with CeO2[J].Rare Metals,2018,37(1):66-71. 被引量：2

二级参考文献43

1Noebe RD, Bowman RR, Nathal MV. Physical and mechanical properties of the B2 compound NiAI. Int Mater Rev. 1993; 38(4):193.
2Miracle DB. The physical and mechanical properties of NiAI. Acta Metall Mater. 1993;41(3):649.
3Baker I. A review of the mechanical properties of B2 com- pounds. Mater Sci Eng A. 1995:192(193):1.
4Schulz U, Fritscher K, Ebach-Stahl A. Cyclic behaviour of EB- PVD thermal barrier coating systems with modified bond coats. Surf Coat Technol. 2008;203(5-7):449.
5Li HF, Tao SF, Zhou ZH, Sun LD, Hesnawi A, Gong SK. Element diffusion during fabrication of EB-PVD NiAI coatingand its 1100 ~C isothermal oxidation behaviour (I1). Surf Coat Technol. 2007;201(15):6589.
6Li HF, Guo HB, Gong SK. Failure mechanism of EB-PVD thermal barrier coatings on NiAl substrate. Trans Nonferr Met Soc. 2007:17(4):811.
7Yu Z, Hass DD, Wadley HNG. NiA1 bond coats made by a directed vapour deposition approach. Mater Sci Eng A. 2005;394( 1 ):43.
8Oquab D, Monceau D. In-situ SEM study of cavity growth during high temperature oxidation of ~-(Ni, Pd)Al. Scr Mater. 2001 ;44( 12):2741.
9Hou PY, Tolpygo VK. Examination of the platinum effect on the oxidation behaviour of nickel-aluminide coatings. Surf Coat Technol. 2007;202(4-7):623.
10Hou PY, McCarty KF. Surface and interface segregation in [3- NiA1 with and without Pt addition. Scr Mater. 2006;54(5):937.

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1Dong-Qing Li,Li-Xian Zhou,Kuan-Jun Zhu,Jian Gu,Shu-Hui Zheng.Isothermal oxidation behavior of scandium and yttrium co-doped B2-type iron-aluminum intermetallics at elevated temperature[J].Rare Metals,2018,37(8):690-698. 被引量：3
2Wei-Wei Zhang,Zhi-Yuan Wei,Li-Yuan Zhang,Ya-Zhe Xing,Qiang Zhang.Low-thermal-conductivity thermal barrier coatings with a multi-scale pore design and sintering resistance following thermal exposure[J].Rare Metals,2020,39(4):352-367. 被引量：2
3Hong-Fei Chen,Chi Zhang,Yu-Chen Liu,Peng Song,Wen-Xian Li,Guang Yang,Bin Liu.Recent progress in thermal/environmental barrier coatings and their corrosion resistance[J].Rare Metals,2020,39(5):498-512. 被引量：4
4王硕,吕静,陈芳兵,李莉,谈飞,刘杰.纯钛表面电子束蒸镀钴铬合金涂层对钛瓷结合强度的影响[J].中南大学学报（医学版）,2020,45(11):1361-1367.
5王晓军,王馨.渗铝涂层对Cr20Ni80电热合金丝抗氧化性能的影响[J].材料保护,2021,54(1):1-6. 被引量：1
6Liang Yang,Ryutan Choi,Yu Zheng,Mohammad Hassan Shirani Bidabadi,Abdul Rehman,Chi Zhang,Hao Chen,Zhi-Gang Yang.Spalling resistance of thermally grown oxide based on NiCoCrAlY(Ti) with different oxide peg sizes[J].Rare Metals,2021,40(3):663-670. 被引量：2
7Liang Yang,Yu Zheng,Chun-Lei Wan,Qian-Ming Gong,Chi Zhang,Hao Chen,Zhi-Gang Yang.Characteristics of oxide pegs in Ti-and Y-doped CoNiCrAl alloys at 1150℃[J].Rare Metals,2021,40(8):2059-2064.
8王晶,钱凌翼,郭云珊,Richard Wheatley,侯向辉,刘宇阳.R_(2)O_(3)+Er_(2)O_(3)稳定ZrO_(2)的新型TBC材料[J].稀有金属,2022,46(7):853-861.

同被引文献9

1朱海南,齐歆霞.涡轮叶片气膜孔加工技术及其发展[J].航空制造技术,2011,0(13):71-74. 被引量：47
2牟仁德,陆峰,何利民,贺世美,黄光宏.热障涂层技术在航空发动机上的应用与发展[J].热喷涂技术,2009,1(1):53-58. 被引量：35
3郭洪波,宫声凯,徐惠彬.先进航空发动机热障涂层技术研究进展[J].中国材料进展,2009,28(9):18-26. 被引量：146
4周益春,刘奇星,杨丽,吴多锦,毛卫国.热障涂层的破坏机理与寿命预测[J].固体力学学报,2010,31(5):504-531. 被引量：76
5梁明德,于继平,张鑫,冀晓娟,沈婕,章德铭,任先京.高温热障涂层陶瓷层材料研究进展[J].热喷涂技术,2013,5(2):1-9. 被引量：10
6陈荣章.航空铸造涡轮叶片合金和工艺发展的回顾与展望[J].航空制造技术,2002,45(2):19-23. 被引量：43
7张强,贺斌,田东坡,李朋,焦悦.飞秒激光带热障涂层叶片气膜孔加工技术研究进展[J].航空科学技术,2018,29(2):9-14. 被引量：18
8董一巍,吴宗璞,李效基,殷春平,尤延铖.叶片气膜孔加工与测量技术的现状及发展趋势[J].航空制造技术,2018,61(13):16-25. 被引量：24
9杨薇.飞秒激光加工镍基高温合金微孔试验研究[J].电加工与模具,2021(4):56-60. 被引量：6

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