高温下数字图像相关散斑最优成像探究 -

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高温下数字图像相关散斑最优成像探究

doi:10.3788/CO.20181105.0728

合肥工业大学仪器科学与光电工程学院, 安徽合肥 230009

基金项目:

国家重点研发计划2016YFF0101803

国家自然科学基金51375136

中央高校基本科研业务费专项基金资助JZ2015HGBZ0497

详细信息

作者简介:
胡悦(1993-), 男, 江苏泰州人, 硕士研究生, 主要从事数字图像相关及图像处理等方面的研究。E-mail:854827254@qq.com
王永红(1972—)，男，安徽合肥人，教授，博士生导师，主要从事光学精密测试、散斑干涉检测和机器视觉等方面的研究。E-mail：yhwang@hfut.edu.cn

中图分类号:TP391.41;TH74
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出版历程
- 收稿日期:2018-01-16
- 修回日期:2018-03-05
- 刊出日期:2018-10-01

Optimal imaging of digital image correlation speckle under high temperature

School of Instrument Science and Optoelectronic Engineering, Hefei University of Technology, Hefei 230009, China

Funds:

National Key Research and Development Program2016YFF0101803

National Natural Science Foundation51375136

Central University Fundamental Research Funds FundingJZ2015HGBZ0497

More Information

Corresponding author:WANG Yong-hong, E-mail:yhwang@hfut.edu.cn

摘要

摘要:为了测量材料在高温甚至超高温下的力学性能，采用数字图像相关方法，并研究其在高温下的最优成像。采取不同的散斑制作方法，同时加入不同颜色的高温漆，在不同的温度节点，外加不同光源及相应的滤波片，采集并观察图像是否具有良好的对比度。普通的单色光源在800℃以后会逐渐失效，无法获取图像，而紫外光在1 200℃时依然可以获取较好的图像，且直接利用试件本身颜色作为底色效果更佳。采用紫外光照明可以实现DIC在高温环境下的测量。同时利用黑色或者蓝色散斑直接喷涂在试件上有着最佳的对比度，要优于常规的散斑制作方法。
- 数字图像相关/
- 高温测量/
- 紫外光/
- 散斑
Abstract:In order to measure the mechanical properties of materials at high temperatures or even at ultra-high temperatures, digital image correlation methods are used and their optimal imaging at high temperatures is studied. Different speckle production methods are adopted and high temperature paints of different colors are added. At different temperature nodes, different light sources and corresponding filters are added to collect and observe whether the image has a good contrast. The ordinary monochromatic light source will gradually fail after 800℃, and the image cannot be obtained. The ultraviolet light can still obtain a better image at 1 200℃, and the color of the test piece itself is better as the background color. UV light illumination can be used to measure DIC in high temperature environment. At the same time, the use of black or blue speckle directly sprayed on the test piece has the best contrast, which is superior to the conventional speckle making method.
- Digital image correlation/
- high temperature measurement/
- ultraviolet light/
- speckle

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图 1待测试件

Figure 1.Tested pieces

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图 2测量系统原理图

Figure 2.Diagram of measurement system

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图 3实验系统

Figure 3.Experiment system

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图 4各波段滤波片

Figure 4.Each kind of band filter

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图 5JAI UV相机量子转化效率

Figure 5.Quantum conversion efficiency of JAI UV camera

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图 6常规制斑的室温成像

Figure 6.Imaging of conventional spots making at room temperature

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图 7常规制斑高温成像

Figure 7.Imaging of conventional spots making at high temperature

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图 8各温度下白光成像

Figure 8.Imaging of white light at different temperatures

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图 9各温度下红光成像

Figure 9.Imaging of red light at different temperatures

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图 10各温度下绿光成像

Figure 10.Imaging of green light at different temperatures

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图 11各温度下蓝光成像

Figure 11.Imaging of blue light at different temperatures

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图 12各温度下紫外光成像

Figure 12.Imaging of UV light at different temperatures

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图 13白色底色试件600 ℃时成像

Figure 13.Imaging of white background specimen at 600 ℃

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表 1各颜色散斑耐温极限

Table 1.Temperature limit of each color speckle

颜色	厂家提供的耐温极限
黑色	1 204 ℃
白色	1 148 ℃
黄色	1 148 ℃
蓝色	1 093 ℃
绿色	1 000 ℃左右

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