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基于作者自建八面体模型得到的多孔材料电阻率计算公式,对系列泡沫金属产品进行对应的实践研究。考察不同材质和不同结构的泡沫金属产品,对该计算公式展开系列的实践应用和验证。研究结果显示,本表征公式既可较好地计算不同材质的泡沫金属的电阻率,也可较好地计算不同结构的泡沫金属的电阻率。这说明本表征公式具有良好的泡沫金属电阻率计算实践能力。
Abstract:Based on the relationship between the electrical resistivity and porosity from the octahedron model of porous materials, the practical investigations are carried out on the calculation of the electrical resistivity of a series of metal foam products. This paper looks into metal foam products with different material species and various structures, and develops a series of practical applications and verification of the present calculation formula. The results show this characterizing relation can well calculate not only the electrical resistivity of metal foams with different material species, but also that with various structures. This indicates the formula has a good practical ability to calculate the electrical resistivity of metal foams.
[1]Liu P S, Mei L F, Cheng W. Fundamentals and Applications of Porous Materials[M]. Beijing:Chemical Industry Press, 2024(刘培生,梅乐夫,程伟.多孔材料基础与应用[M].北京:化工出版社, 2024(in Chinese))
[2]Omrani R, Shabani B. Gas diffusion layers in fuel cells and electrolysers:a novel semi-empirical model to predict electrical conductivity of sintered metal fibres[J]. Energies,2019,12:855-872
[3]Egwuonwu N R, Boniface O O, Sunday A V. Unveiling empirical correlation between electrical and thermal conductivities of medium porosity open-cell porous aluminium fabricated by replication casting method[J]. The International Journal of Advanced Manufacturing Technology,2024,131:3499-3507
[4]Kaiser T, Dehm G, Kirchlechner C, et al. Probing porosity in metals by electrical conductivity:Nanoscale experiments and multiscale simulations[J]. European Journal of Mechanics:A Solids,2023,97:104777-104783
[5]Liu P S, Li T F, Fu C. Relationship between electrical resistivity and porosity for porous materials[J]. Materials Science and Engineering A,1999,268:208-215
[6]Liu P S, Liang K M. Evaluating electrical resistivity for high porosity metals[J]. Materials Science and technology,2000,16(3):341-343
[7]Liu P S, Xia F J, Cheng W. Study on property model for porous materials 2:experimental verification[J]. Journal of Materials Engineering,2019,47(7):35-49(刘培生,夏凤金,程伟.多孔材料性能模型研究2:实验验证[J].材料工程,2019,47(7):35-49(in Chinese))
[8]Wang Q, Huang X M, Lv Y F, et al. Effects of porosity and pore size on the electr ical conductivity of open-cell aluminum foams[J]. Ordnance Material Science and Engineering,2006,29(6):12-14(王强,黄笑梅,吕艳凤,等.孔率及孔径对开孔泡沫铝导电性的影响[J].兵器材料科学与工程,2006,29(6):12-14(in Chinese))
[9]Ashby M F, Evans A, Fleck N A, et al. Metal Foams:A Design Guide[M]. Boston:Elsevier Science, 2000
[10]Zhou W, Tang Y, Song R, et al. Characterization of electrical conductivity of porous metal fiber sintered sheet using four-point probe method[J]. Materials and Design,2012,37:161-165
[11]Dharmasena K P, Wadley H N G. Electrical conductivity of open-cell metal foams[J]. Journal of Materials Research,2002,17(3):625-631
[12]Duan D L, Li S, Zhang R L, et al. Calculation of apparent resistivity of metallic open cell foams by dodecahedron model[J]. Materials Science and Technology,2007,23(6):661-664
[13]Lee S H, Kim J H, Kim W S, et al. The effect of the heating rate during carbonization on the porosity, strength,and electrical resistivity of graphite blocks using phenolic resin as a binder[J]. Materials,2022,15:3259-3270
[14]Feng Y, Zheng H W, Zhu Z G, et al. The microstructure and electrical conductivity of aluminum alloy foams[J].Materials Chemistry and Physics,2002,78:196-201
[15]Goodall R, Weber L, Mortensen A. The electrical conductivity of microcellular metals[J]. Journal of Applied Physics,2006,100:044912
[16]Hakamada M, Kuromura T, Chen Y, et al. Influence of porosity and pore size on electrical resistivity of porous aluminum produced by spacer method[J]. Materials Transactions,2007,48:32-36
基本信息:
DOI:10.13922/j.cnki.cjvst.202507005
中图分类号:TB383.4;TG111
引用信息:
[1]刘培生,颜培烨.八面体模型理论应用:泡沫金属的电阻率[J].真空科学与技术学报,2026,46(03):269-276.DOI:10.13922/j.cnki.cjvst.202507005.
基金信息:
北京师范大学测试基金项目(C25)
2025-09-28
2025-09-28
2025-09-28