DETERMINATION OF CREEP PROPERTIES OF THERMAL BARRIER COATING(TBC)SYSTEMS FROM THE INDENTATION CREEP TESTING WITH ROUND FLAT INDENTERS

DETERMINATION OF CREEP PROPERTIES OF THERMAL BARRIER COATING(TBC) SYSTEMS FROM THE INDENTATION CREEP TESTING WITH ROUND FLAT INDENTERS

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摘要 Indentation creep behavior with cylindrical flat indenters on the thermal barrier coating (TBC) was studied by finite element method (FEM). On ike constant applied indentation creep stress, there is a steady creep rate for each case studied for different creep properties of the TBC system. The steady creep depth rate depends on the applied indentation creep stress and size of the indenters as well as the creep properties of the bond coat of the TBC and the substrate. The possibilities to determine the creep properties of a thermal barrier system from indention creep testing were discussed. As an example, with two different size indenters, the creep properties of bond coat of the TBC system can be derived by an inverse FEM method. This study not only provides a numerical method to obtain the creep properties of the TBC system, but also extends the application of indentation creep method with cylindrical flat indenters. Indentation creep behavior with cylindrical flat indenters on the thermal barrier coating (TBC) was studied by finite element method (FEM). On ike constant applied indentation creep stress, there is a steady creep rate for each case studied for different creep properties of the TBC system. The steady creep depth rate depends on the applied indentation creep stress and size of the indenters as well as the creep properties of the bond coat of the TBC and the substrate. The possibilities to determine the creep properties of a thermal barrier system from indention creep testing were discussed. As an example, with two different size indenters, the creep properties of bond coat of the TBC system can be derived by an inverse FEM method. This study not only provides a numerical method to obtain the creep properties of the TBC system, but also extends the application of indentation creep method with cylindrical flat indenters.

作者 B.Zhao B.X.Xu J.Liu Z.F.Yue

机构地区 School of Mechanics

出处《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2004年第4期503-508,共6页 金属学报（英文版）

基金 supported by the National Natural Science Foundation of China(50005016,50375124) China Aviation Foundation(02c53011,03B53003)as well as the Yangtze River Foundation.

关键词 thermal barrier coating (TBC) system indention creep testing finite element creep analysis determination of creep parameters bond coat thermal barrier coating (TBC) system, indention creep testing,finite element creep analysis, determination of creep parameters,bond coat

分类号 TG174 [金属学及工艺—金属表面处理]

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1万建松,岳珠峰,张克实.蠕变压痕实验的计算机模拟[J].力学与实践,2002,24(1):35-38. 被引量：3
2马培燕,傅正义.微叠层结构材料的研究现状[J].材料科学与工程,2002,20(4):589-593. 被引量：15
3岳珠峰,万建松,吕震宙.由压痕蠕变试验确定材料的蠕变性能参数[J].应用数学和力学,2003,24(3):275-281. 被引量：15

二级参考文献18

1[1]Webster G A, Ainsworth R A. High Temperature Component Life Assessment[M]. London: Chapman & Hall,1994.
2[2]Cadek J. Creep in Metallic Materials[M]. Amsterdam: Elsevier,1988.
3[3]Nabarro F R N, de Villiers H L. The Physics of Creep[M]. London: Taylor and Francis,1995.
4[4]Evans B, Indentation testing[J]. J Geophys Res,1984,89(10):4213-4222.
5[5]Li W B, Henshall J L, Hooper R M, et al. The mechanism of Indentation creep[J]. Acta Metall Mater,1991,39(8):3099-3109.
6[6]Pandorf R, Broeckmann C, Berns H. Indentationskriechen[J]. MP Materialprüfung,1999,41(2):294-300.
7[7]Li J C M, Creep of Sn-Pb eutectic alloy,In: J C Earthman, F A Mohamed Eds.Proceedings of the seventh international conference on creep and fracture of engineering materials and structures[A].The Minerals, Metals & Materials Society[C]. Warrendale,1997,109-117.
8[8]Lucas B N, Oliver W C. Indentation power-law creep of high-purity indium[J]. Metallurgical and Materials Transactions,1999,30A(3):601-610.
9[9]Becker A A, Hyde T H, Xia L. Numerical analysis of creep in components[J]. J Strain Analysis,1994,29(3):27-34.
10[10]Hyde T H, Yehia K A, Becker A A. Application of the reference stress method for interpreting impression creep test data[J]. Materials at High Temperatures,1995,13(3):133-137.

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1关春龙,左宏森,祁颖,马李.NiCrAl/Ni_3Al微叠层材料的断裂韧度测算[J].宇航材料工艺,2008,38(4):14-17.
2马李.EB-PVD工艺制备Ti/Ti-Al微层板的力学性能与增韧机制研究[J].材料工程,2009,37(S2):319-322.
3赵彬,许宝星,岳珠峰.热障涂层平头压痕蠕变研究[J].机械强度,2005,27(1):112-116. 被引量：4
4闫五柱,温世峰,刘军,岳珠峰.压痕法确定热障涂层蠕变参数[J].稀有金属材料与工程,2010,39(10):1829-1834. 被引量：3
5许宝星,李立州,赵彬,岳珠峰.平头压痕试验确定热障涂层弹性模量的方法研究[J].应用力学学报,2006,23(1):72-75. 被引量：4
6许宝星,赵彬,岳珠峰.平头压头下基体对压痕规律的影响研究[J].材料科学与工艺,2006,14(4):373-376. 被引量：2
7马李,赫晓东,孙跃.Preparation of Ti-Al alloy sheet by electron beam physical vapor deposition[J].中国有色金属学会会刊：英文版,2007,17(A01):477-481.
8闫五柱,岳珠峰.平头压痕试验确定蠕变参数的一种新方法[J].强度与环境,2009,36(1):8-13. 被引量：3
9马敏伟,罗迎社.金属薄膜材料蠕变性能研究进展[J].湘潭师范学院学报（自然科学版）,2009,31(1):74-76.
10刘庆华,王庆良,沈涵,玄加申.仿生UHMWPE关节软骨材料的静态黏弹性研究[J].医用生物力学,2010,25(5):369-374. 被引量：2

1DONG Yun,LIU Chun-yang,LIN Xiao-ping,WANG Tie-ba,ZHANG Li-juan,WANG Zhi-ping.Effect of supersonic fine particles bombarding bond coat on oxidation resistance of thermal barrier coating[J].材料科学与工程（中英文版）,2009,3(3):41-45. 被引量：2
2Peng-fei ZHAO Fu-lin SHANG.Experimental study on the interfacial delamination in a thermal barrier coating system at elevated temperatures[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2010,11(10):794-803. 被引量：1
3刘喜波,关逊,陈荣石,韩恩厚.Creep behavior of ageing hardened Mg-10Gd-3Y alloy[J].Transactions of Nonferrous Metals Society of China,2010,20(B07):545-549. 被引量：1
4W.M.Yin 1,2 , V.Lupinc 2, L.Z.Zhou 1, M. Maldini 2 and J.T.Guo 1 1 Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110015, China 2 CNR TEMPE, Via Cozzi 53, Milan 20125, Italy.CREEP BEHAVIOR OF ACASTγTiAl BASEALLOY[J].中国有色金属学会会刊：英文版,1999,9(S1):274-279.
5Jianguo Zhu,Kang Ma.Microstructural and mechanical properties of thermal barrier coating at 1400℃ treatment[J].Theoretical & Applied Mechanics Letters,2014,4(2):47-51. 被引量：1
6岳珠峰,万建松,吕震宙.DETERMINATION OF CREEP PARAMETERS FROM INDENTATION CREEP EXPERIMENTS[J].Applied Mathematics and Mechanics(English Edition),2003,24(3):307-317. 被引量：1
7孙颖迪,李子全,刘劲松,从孟启,秦静雅.Indentation creep behaviors of Mg_(61)Cu_(28)Gd_(11) and (Mg_(61)Cu_(28)Gd_(11))_(99.5)Sb_(0.5) bulk metallic glasses at room temperature[J].Journal of Rare Earths,2011,29(3):253-258. 被引量：1
8Shan-Tung TU.Creep behavior of plasma sprayed NiCr and NiCrAl coating-based systems[J].Acta Metallurgica Sinica(English Letters),2011,24(3):183-189.
9MA Peili YUAN Ying ZHONG Zengyong Central Iron and Steel Research Institute,Ministry of Metallurgical Industry,Beijing,China MA Peili Senior Engineer,Lab.of Superalloy,Central Iron and Steel Research Institute,Ministry of Metallurgical Industry,Beijing 100081,China.CREEP BEHAVIORS OF Mg MICROALLOYED WROUGHT SUPERALLOYS[J].Acta Metallurgica Sinica(English Letters),1990,3(3):208-212.
10W.R.Chen,X.Wu,B.R.Marple,P.C.Patnaik.Influence of Heat Treatment on the Bond Coat Cyclic Oxidation Behaviour in an Air-plasma-sprayed Thermal Barrier Coating System[J].材料热处理学报,2004,25(05B):923-929.

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DETERMINATION OF CREEP PROPERTIES OF THERMAL BARRIER COATING(TBC)SYSTEMS FROM THE INDENTATION CREEP TESTING WITH ROUND FLAT INDENTERS

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