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《中国航空学报(英文版)》 2018-01
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Multi-scale thermodynamic analysis method for 2D SiC/SiC composite turbine guide vanes

Xin LIU;Xiuli SHEN;Longdong GONG;Peng LI;School of Energy and Power Engineering,Beihang University;Navigation and Control Technology Research Institute of China Ordnance Industries;  
Ceramic Matrix Composite(CMC) turbine guide vanes possess multi-scale stress and strain with inhomogeneity at the microscopic scale.Given that the macroscopic distribution cannot reflect the microscopic stress fluctuation, the macroscopic method fails to meet the requirements of stress and strain analysis of CMC turbine guide vanes.Furthermore, the complete thermodynamic properties of 2 D woven SiC/SiC-CMC cannot be obtained through experimentation.Accordingly,a method to calculate the thermodynamic properties of CMC and analyze multi-scale stress and strain of the turbine guide vanes should be established.In this study, the multi-scale thermodynamic analysis is investigated.The thermodynamic properties of Chemical Vapor Infiltration(CVI) processed SiC/SiC-CMC are predicted by a Representative Volume Element(RVE) model with porosity, leading to the result that the relative error between the calculated in-plane tensile modulus and the experimental value is 4.2%.The macroscopic response of a guide vane under given conditions is predicted.The relative error between the predicted strain on the trailing edge and the experimental value is 9.7%.The calculation of the stress distribution of micro-scale RVE shows that the maximum value of microscopic stress, which is located in the interlayer matrix, is more than 1.5 times that of macroscopic stress in the same direction and the microscopic stress distribution of the interlayer matrix is related to the pore distribution of the composite.
【CateGory Index】: V231.1
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