Simulation of Interfacial Stress in TBCs with Oxidation-Resistance Interlayer under Thermal Loading

机译：热载荷下含抗氧化中间层的TBC界面应力模拟

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Plasma-sprayed Al₂O₃ interlayer was prefabricated between the bondcoat and topcoat in thermal barrier coatings. It can prevent oxygen penetration through the interconnected porosity in the topcoat, so that the thermally grown oxide (TGO) growth and the failure can be suppressed. But, prefabricated Al₂O₃ interlayer will result in interfacial stress redistributing. The paper, basing on three-dimensional shape of thermal barrier coatings, using elastic sphere model, considering topcoat, interlayer, TGO and bondcoat, have developed a four-concentric-sphere model of three-dimensional, and produced the relevant analytical model. Furthermore, to verify the results by FEM. In this paper, the analysis of anti-oxidation layer for the concave and convex asperity, indicate that the method can simulate the effect of interlayer on the interfacial microstructurepsilas stress distributing of thermal barrier coatings.

机译：在隔热涂层的粘结层和面漆之间预制了等离子喷涂的Al _{2 O _{3 中间层。它可以防止氧气穿过面漆中的互连孔隙渗透，从而可以抑制热生长氧化物（TGO）的生长和破坏。但是，预制的Al _{2 O _{3 中间层将导致界面应力的重新分布。本文基于弹性涂层模型的三维形状，利用弹性球体模型，考虑了面漆，中间层，TGO和粘结涂层，开发了三维的四同心球模型，并产生了相关的分析模型。此外，通过FEM验证结果。通过对凹凸凹凸结构抗氧化层的分析，表明该方法可以模拟中间层对热障涂层界面微观结构的应力分布的影响。}}}}

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《International Conference on Information and Computing Science;ICIC '09》|2009年|296-299|共4页
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Xu Yingqiang; Li Shijie; Jin Shaojie; Wang Zhenlong;
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alumina; crystal microstructure; finite element analysis; oxidation; plasma arc sprayed coatings; porosity; thermal barrier coatings; Alsub2/subOsub3/sub; FEM; TBC; TGO; antioxidation layer; elastic sphere model; four-concentric-sphere model; interfacial microstructure; interfacial stress; oxidation resistance; oxygen penetration; plasma-sprayed interlayer; thermal loading; thermally grown oxide growth; Anti-oxidation interlayer; Four-concentric-spheres model; The thermal barrier coatings;

机译：氧化铝;晶体微结构;有限元分析;氧化;等离子弧喷涂涂层;孔隙率;隔热涂层; Al _{2 O _{3 ; FEM; TBC; TGO;抗氧化层;弹性球模型;四同心球模型;界面微观结构;界面应力;抗氧化性;氧渗透性;等离子喷涂中间层;热负荷;氧化物生长热生长;抗氧化中间层;四同心球模型;热防渗涂料;}}

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机译：在等温荷载下含有PVD-Al中间层的TBC系统的特性研究
2. Growth of interfacial cracks in a TBC/superalloy system due to oxide volume induced internal pressure and thermal loading [J] . Nusier SQ., Newaz GM. International Journal of Solids and Structures . 2000,第15期

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3. Analysis of interfacial cracks in a TBC/superalloy system under thermal loading [J] . S. Nusier, G. Newaz Engineering Fracture Mechanics . 1998,第5a6期

机译：热载荷作用下TBC /高温合金界面裂纹的分析
4. Simulation of Interfacial Stress in TBCs with Oxidation-Resistance Interlayer under Thermal Loading [C] . Xu Yingqiang, Li Shijie, Jin Shaojie, International Conference on Information and Computing Science . 2009

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8. Simulation of Partial Autofrettage Residual Stresses by Thermal Loads [R] . Hussain, M. A., Pu, S. L., Vasilakis, J. D., 1980

机译：热载荷对部分自增强残余应力的模拟

Simulation of Interfacial Stress in TBCs with Oxidation-Resistance Interlayer under Thermal Loading

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