| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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| Present Situation and Development Trend of Test Methods for Thermal Conductivity of Refractory Materials |
| HU Gengyu1, YAN Qiang2, NIE Jianhua1,*, LIU Dan1, ZHU Qingyou1, YIN Yucheng1,*, ZENG Zhiqiang3
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1 State Key Laboratory of Refractory Materials and Metallurgy, Wuhan University of Science and Technology, Wuhan 430081, China
2 Wugang Refractory Co., Ltd., Wuhan 430080, China
3 NETZSCH Scientific Instruments Trading (Shanghai) Ltd., Shanghai 200131, China |
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Abstract This paper reviews methods for determining the thermal conductivity of refractory materials, and compares their application scopes, advantages and disadvantages. It also summarizes the latest research progress in thermal conductivity measurement techniques. The insights provide assistance for scientists and technicians in selecting the most appropriate testing methods for specific refractory materials. Furthermore, considering the current domestic and international situations, the paper highlights aspects where testing methods could be improved and discusses potential directions for future advancements in thermal conductivity measurement.
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Published: 15 August 2025
Online: 2025-08-15
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1 Czichos H, Saito T, Smith L. Springer Handbook of Metrology and Testing. Springer Berlin Heidelberg Press, Germany, 2011, pp. 493
2 Huang S Y, Wei C X, Zheng L H. Acta Metrologica Sinica, 2023, 44(4), 508 (in Chinese).
黄思俞, 魏炽旭, 郑联慧. 计量学报, 2023, 44(4), 508.
3 Li H X. Refractories, 2023, 57(5), 369 (in Chinese).
李红霞. 耐火材料, 2023, 57(5), 369.
4 中华人民共和国国家质量监督检验检疫总局. GB/T 10294-2008, 2008.
5 IX-ISO. 8302-1991, 1991.
6 Poensgen R. über Forschungsarbeiten auf dem Gebiete des Ingenieurwesens, 1912, 130, 25.
7 Dickinson H C, Van Dusen M S. The American Society of Refrigeration Engineering, 1916 (3), 5.
8 Van D M S. The American Society of Heating and Ventilating Engineerin, 1920(26), 385.
9 Kobari T, Okajima J, Komiya A, et al. International Journal of Heat and Mass Transfer, 2015, 91, 1157.
10 Vanapalli S, Klünder T, Hegeman I, et al. International journal of refrigeration, 2017, 74, 644.
11 Turzo-Andras E, Magyarlaki T. International Journal of Thermophysics, 2017, 38(10), 143.
12 Liu Y, Zhang J T, Wang J K et al. Acta Metrologica Sinica, 2023, 44(6), 871 (in Chinese).
刘晔, 张金涛, 王金库, 等. 计量学报, 2023, 44(6), 871.
13 Suo Y Y. Research on key technology for guarded hot-plate high temperature thermal conductivity measuring apparatus. Master's Thesis, Tianjin University, China, 2016 (in Chinese).
索亚运. 防护热板法高温导热系数测定仪关键技术研究. 硕士学位论文, 天津大学, 2016.
14 Zhu S Y, Zhao Chunteng, Zhang Q R. China Measurement & Test, 2023, 49(S1), 252 (in Chinese).
朱思倩, 赵春腾, 张倩茹. 中国测试, 2023, 49(S1), 252.
15 Dong H R, Qin Y Y, Deng L X, et al. Chongqing Architecture, 2019, 18(11), 54 (in Chinese).
董恒瑞, 秦砚瑶, 邓铃夕, 等. 重庆建筑, 2019, 18(11), 54.
16 中华人民共和国国家质量监督检验检疫总局. GB/T 10295-2008, 2008.
17 IX-ISO. 8301-1991, 1991.
18 中华人民共和国国家发展和改革委员会. YB/T 4130-2005, 2005.
19 Li L F, Wang X F, Fu X R, et al. Created with Highcharts, 2021, 46(4), 18 (in Chinese).
李龙飞, 王秀芳, 符心蕊, 等. 耐火与石灰, 2021, 46(4), 18-20, 3.
20 Xu L, Jiang Y G, Li L J, et al. Journal of Nanjing University of Technology(Natural Science Edition), 2023, 45(4), 411 (in Chinese).
徐凛, 姜勇刚, 李良军, 等. 南京工业大学学报(自然科学版), 2023, 45(4), 411.
21 中钢集团洛阳耐火材料研究院有限公司. CN201921029331. 2, 2020.
22 国家市场监督管理总局. GB/T 37796-2019, 2019.
23 Zhang Y, Cheng K L, Xu J R. Chemistry, 2004, 67(5), 341 (in Chinese).
张艺, 程开良, 许家瑞. 化学通报, 2004, 67(5), 341.
24 Reading M, Luget A, Wilson R. Thermochimica Acta, 1994, 238 (15), 295.
25 Gu D H. Design on conductometer based on transient hot-wire. Master's Thesis. Wuhan University of Technology, China, 2016 (in Chinese).
辜大海. 基于瞬态热线法导热仪的设计. 硕士学位论文, 武汉理工大学, 2016.
26 Mittenbuhler V A. Berichte der Deutschen Chemischen Gesellschaft, 1964, 41(1), 15.
27 Gustafsson S E, Karawacki E, Khan M. N. Journal of Physics D:Applied Physics, 1979, 12(9), 1411.
28 国家市场监督管理总局. GB/T 5990-2021, 2021.
29 DIN EN ISO. 8894-1-2010, 2010.
30 Hu R X, Ma A C, Wang Y H. Experimental Thermal and Fluid Science, 2018, 98, 674.
31 IX-ISO. 8894-2-2007, 2007.
32 国家市场监督管理总局. GB/T 36133-2018, 2018.
33 ASTM International. C1113/C1113M-09, 2019.
34 Zhao W P, Wang D. Refractories, 2011, 45(5), 397 (in Chinese).
赵维平, 王东. 耐火材料. 2011, 45(5), 397.
35 Gustafsson S E. Review of scientific instruments, 1991, 62(3), 797.
36 Gustavsson M, Karawacki E, Gustafsson S E. Review of Scientific Instruments, 1994, 65(12), 3856.
37 EN ISO. 22007-2-2015, 2015.
38 中华人民共和国国家质量监督检验检疫总局. GB/T 32064-2015, 2015.
39 Gao G N, Zhang X X, Yu F, et al. Acta Metrologica Sinica, 2001(2), 106 (in Chinese).
高光宁, 张欣欣, 于帆, 等. 计量学报, 2001(2), 106.
40 Malinari S, Elkholy A. International Journal of Thermal Sciences, 2021, 164, 106901.
41 Parker W J, Jenkins R J, Butler C P, et al. Journal of Applied Physics, 2004, 32(9), 1679.
42 Cape J A, Lehman G W. Journal of Applied Physics, 2004, 34(7), 1909.
43 Liu X, Zhang X H, Tian Z H, et al. Test Technology and Testing Machine, 2013, 53(4), 37 (in Chinese).
刘响, 张秀华, 田志宏, 等. 工程与试验, 2013, 53(4), 37.
44 Zhang J R, Zhang S Z, Liu X M, et al. Acta Metrologica Sinica, 2023, 44(2), 203 (in Chinese).
张嘉芮, 张圣梓, 刘晓萌, 等. 计量学报, 2023, 44(2), 203.
45 中华人民共和国国家质量监督检验检疫总局. GB/T 22588-2008, 2008.
46 中华人民共和国国家质量监督检验检疫总局, GB/T 32064-2015, 2015.
47 ASTM International. E1461-2007, 2007.
48 Potenza M, Coppa P, Corasaniti S, et al. ASME Journal of Heat and Mass Transfer, 2021, 143(7), 072102.
49 Lian T-W, Kondo A, Akoshima M, et al. Advanced Powder Technology, 2016, 27(3), 882.
50 Akoshima M, Hay B, Neda M, et al. International Journal of Thermophysics, 2013, 34(5), 778.
51 Balandin A A, Ghosh S, Bao W, et al. Nano letters, 2008, 8(3), 902.
52 Gomes M G, Flores-Colen I, Da Silva F, et al. Construction and Buil-ding Materials, 2018, 172, 696. |
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2025, Vol. 39 
