一种高温数字图像相关方法及其在薄膜冷却孔应变测量中的应用

IF 1 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS
Zixu Guo, Ziyuan Song, Dawei Huang, Xiaojun Yan
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引用次数: 0

摘要

本文提出了一种数字图像相关(DIC)方法,并将其应用于亚毫米尺度的高温薄膜冷却孔。与传统的DIC方法相比,对散斑成像方法和光学系统进行了改进。其中,选择一种耐高温的黑色涂料作为底漆,采用高压溅射法将白色的ZrO2颗粒均匀分布在试样上。此外,为了消除高温试样的辐射影响,采用蓝色光源照射试样,并在摄像机前放置光学带通滤光片,使蓝光通过。为了验证DIC方法的有效性,在单斜孔试件上进行了应变测量。高温下最大应变的测量结果与有限元数值模拟结果的相对误差为12%。单斜孔的应变集中系数为1.83。最后,将该方法应用于多膜冷却孔结构在870℃下的应变测量。在最大应力孔处可以观察到x形应变分布,说明多孔应变场存在耦合效应。此外,多膜冷却孔的应变集中系数增加到2.34。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A High-Temperature Digital Image Correlation Method and its Application on Strain Measurement of Film Cooling Holes
In this paper, a digital image correlation (DIC) method is developed and applied on film cooling holes in the submillimeter scale in high temperature. Compared with the traditional DIC method, the speckle patterning method and the optical system are improved. In detail, a kind of high temperature-resistant black paint is selected as the basecoat, and the white ZrO2 particles are evenly distributed on the specimen using high-pressure splashing method. Besides, to eliminate the radiation effect of the high-temperature specimen, the blue light source is used to illuminate the specimen, and the optical bandpass filter is placed in front of the camera to allow the blue light passing. In order to verify the DIC method, the strain measurement on a specimen with single skew hole is performed. The relative error in high temperature of the maximum strain between the measurement results and the numerical simulation results given by the finite element method (FEM) is 12%. The strain concentration factor of the single skew hole is measured as 1.83. Finally, the developed method is applied to the strain measurement of the structure with multiple film cooling holes in 870°C. The X-shape strain distribution can be observed at the hole with maximum stress, which suggests that the strain field of multiple holes has coupling effect. In addition, the strain concentration factor of multiple film cooling holes increases to 2.34.
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来源期刊
Journal of Multiscale Modelling
Journal of Multiscale Modelling MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-
CiteScore
2.70
自引率
0.00%
发文量
9
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