1 | Sadeghi E , Hsieh S , Bahrami M . Thermal conductivity and contact resistance of metal foams[J]. Journal of Physics D Applied Physics, 2011, 44 (12): 125406. | 2 | Takegoshi E , Hirasawa Y , Matsuo J , et al. A study on the effective thermal conductivity of porous metals[J]. Transactions of the Japan Society of Mechanical Engineers, 1992, 58 (547): 879- 884. | 3 | Fetoui M , Albouchi F , Rigollet F , et al. Highly porous metal foams:effective thermal conductivity measurement using a photothermal technique[J]. Journal of Porous Media, 2009, 12 (10): 939- 954. | 4 | Paek J , Kang B , Kim S Y . Effective thermal conductivity and permeability of aluminum foam materials[J]. International Journal of Thermophysics, 2000, 21 (2): 453- 464. | 5 | Bianchi E , Heidig T , Visconti C G , et al. An appraisal of the heat transfer properties of metallic open-cell foams for strongly exo-/endothermic catalytic processes in tubular reactors[J]. Chemical Engineering Journal, 2012, 198-199 (4): 512- 528. | 6 | Bhattacharya A. Thermophysical properties and convective transport in metal foam and finned metal foam heat sinks[D]. Boulder: University of Colorado Boulder, 2001. | 7 | Dyga R , Witczak S . Investigation of effective thermal conductivity aluminum foams[J]. Procedia Engineer-ing, 2012, (42): 1088- 1099. | 8 | Schmierer E, Paquette J, Razani a, et al. Effective thermal conductivity of fully-saturated high porosity metal foams[C]//ASME Heat Transfer/Fluids Engineering Summer Conference, Charlotte, North Carolina, USA, 2004. | 9 | Schmierer E N , Razani A . Self-consistent open-celled metal foam model for thermal applications[J]. Journal of Heat Transfer, 2006, 128 (11): 1194- 1203. | 10 | 张涛. TPS法测定泡沫铜/石蜡复合相变材料热物性[J]. 太阳能学报, 2010, 31 (5): 604- 609. | 11 | Xiao X , Zhang P , LI M . Effective thermal conductivity of open-cell metal foams impregnated with pure paraffin for latent heat storage[J]. International Journal of Thermal Sciences, 2014, 81 (1): 94- 105. | 12 | 徐伟强. 泡沫金属基复合相变材料的有效导热系数研究[J]. 功能材料, 2009, 40 (7): 1329- 1337. | 13 | Khodadadi J M . Thermal conductivity improvement of phase change materials/graphite foam composites[J]. Carbon, 2013, 60 (14): 117- 128. | 14 | 张涛. 相变装置中填充泡沫金属的强化传热分析[J]. 制冷学报, 2007, 28 (6): 13- 17. | 15 | Boomsma K , Poulikakos D . On the effective thermal conductivity of a three dimensionally structured fluid-saturated metal foam[J]. International Journal of Heat & Mass Transfe, 2001, 44 (4): 827- 836. | 16 | Dul'nev G N . Heat transfer through solid disperse systems[J]. Journal of Engineering Physics, 1965, 9 (3): 275- 279. | 17 | SIngh R , Kasana H S . Computational aspects of effective thermal conductivity of highly porous metal foams[J]. Applied Thermal Engineering, 2004, 24 (13): 1841- 1849. | 18 | Cheng W L , Wei W J . Theoretical analysis of phase change material storage with high porosity metal foams[J]. Acta Energiae Solaris Sinica, 2007, 28 (7): 739- 744. | 19 | Thomson W . On the division of space with minimum partitional area[J]. Philosophical Magazine Letters, 1887, 24, 503. | 20 | Weaire D , Phelan R . A counter-example to Kelvin's conjecture on minimal surfaces[J]. Philosophical Magazine Letters, 1994, 69 (2): 107- 110. | 21 | 习常清. 开孔泡沫金属热传导性能的理论研究与数值模拟[J]. 稀有金属材料与工程, 2014, 43 (3): 686- 691. |
|