利用激光散斑数字图像相关技术对导流钨靶热负荷进行原位诊断

IF 2.6 3区工程技术 Q1 NUCLEAR SCIENCE & TECHNOLOGY

Nuclear Engineering and Technology Pub Date : 2025-06-11 DOI:10.1016/j.net.2025.103748

Zhang Dale , Jiang Menglai , Li Ledi , He Shengnan , Li Hang , Pan Zhiwei , Huang Shenghong , W.A.N.G. Weihua , Su Yong

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引用次数: 0

摘要

本研究基于高热流密度（~ 300MW）综合实验平台，采用激光散斑数字图像相关（LS-DIC）方法测量了190℃~ 2952℃钨靶板的热应变，并利用该方法反演了靶板的温度场分布和热负荷，实现了对极高温下钨靶板应变、温度和热负荷的同步原位测量。通过与文献中钨热应变的比较，不同温度范围内LS-DIC测量结果的平均相对误差在190 ~ 1100℃范围内为2%，在1040 ~ 2952℃范围内为6%。验证了LS-DIC诊断温度场和热负荷的可行性和准确性，将反演结果与Ansys仿真结果和热负荷实际加载数据进行对比，温度和热负荷反演的错误率分别小于6%和7%。本研究提出的LS-DIC方法有望应用于极端环境下材料应变和温度的非接触原位测量以及热载荷的反演。

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In-Situ Diagnosis of Heat Loads on Divertor Tungsten Targets Using Laser Speckle Digital Image Correlation

Based on a high heat flux (∼300MW) comprehensive experimental platform, this study used the laser speckle digital image correlation (LS-DIC) method to measure the thermal strain of the tungsten target plates from 190°C–2952°C, that was used to invert the temperature field distribution and heat loads of the target plates, realizing the synchronous in-situ measurement of the strains, temperatures and heat loads of the tungsten target plates under extreme high temperature. By comparing with the tungsten thermal strains in literature, the average relative errors of LS-DIC measurement results in different temperature ranges are 2% within 190–1100°C and 6% within 1040–2952°C. The feasibility and accuracy of using LS-DIC to diagnose temperature field and heat loads were verified, the inversion results were compared with Ansys simulation results and actual loading data of heat loads, and the error rates of temperature and heat loads inversion were less than 6% and 7%, respectively. The LS-DIC method proposed in this study is expected to be applied to the non-contact, in-situ measurement of material strain and temperature under extreme environments as well as the inversion of heat loads.

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来源期刊

Nuclear Engineering and Technology 工程技术-核科学技术

CiteScore

4.80

自引率

7.40%

发文量

431

审稿时长

3.5 months

期刊介绍： Nuclear Engineering and Technology (NET), an international journal of the Korean Nuclear Society (KNS), publishes peer-reviewed papers on original research, ideas and developments in all areas of the field of nuclear science and technology. NET bimonthly publishes original articles, reviews, and technical notes. The journal is listed in the Science Citation Index Expanded (SCIE) of Thomson Reuters. NET covers all fields for peaceful utilization of nuclear energy and radiation as follows: 1) Reactor Physics 2) Thermal Hydraulics 3) Nuclear Safety 4) Nuclear I&C 5) Nuclear Physics, Fusion, and Laser Technology 6) Nuclear Fuel Cycle and Radioactive Waste Management 7) Nuclear Fuel and Reactor Materials 8) Radiation Application 9) Radiation Protection 10) Nuclear Structural Analysis and Plant Management & Maintenance 11) Nuclear Policy, Economics, and Human Resource Development