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Effective Thermal Conductivity of High Porosity Open Cell Nickel Foam

机译：高孔隙率开孔镍泡沫的有效导热系数

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The effective thermal conductivity of high-porosity open cell nickel foam samples was measured over a wide range of temperatures and pressures using a standard steady-state technique. The samples, measuring 23.8 mm, 18.7 mm, and 13.6 mm in thickness, were constructed with layers of 1.7 mm thick foam with a porosity of 0.968. Tests were conducted with the specimens subjected to temperature differences of 100 to 1000 K across the thickness and at environmental pressures of 10(exp -4) to 750 mm Hg. All test were conducted in a gaseous nitrogen environment. A one-dimensional finite volume numerical model was developed to model combined radiation/conduction heat transfer in the foam. The radiation heat transfer was modeled using the two-flux approximation. Solid and gas conduction were modeled using standard techniques for high porosity media. A parameter estimation technique was used in conjunction with the measured and predicted thermal conductivities at pressures of 10(exp -4) and 750 mm Hg to determine the extinction coefficient, albedo of scattering, and weighting factors for modeling the conduction thermal conductivity. The measured and predicted conductivities over the intermediate pressure values differed by 13%.

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作者
Sullins, A. D. ; Daryabeigi, K.;
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年度 2001
页码 1-12
总页数 12
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Metal foams; Porosity; Radiative heat transfer; Thermal conductivity; Albedo; Attenuation coefficients; Nickel; Finite volume method;

机译：金属泡沫;孔隙率;辐射传热;导热系数;反照率;衰减系数;镍;有限体积法;

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2. 开孔泡沫镍的压缩和吸能性能 [J] . 范素峰, 张涛, 余琨, 中国有色金属学报：英文版 . 2017,第001期
3. 开孔泡沫镍的压缩和吸能性能（英文） [J] . 范素峰, 张涛, 余琨, 中国有色金属学报：英文版 . 2017,第001期
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机译：高孔隙率金属泡沫有效导热系数和孔隙率的三维分析模型
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机译：结构，孔隙率，饱和流体和固体材料对开孔泡沫有效导热系数的影响
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机译：高孔隙率开孔金属泡沫有效导热系数的解析晶胞模型
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机译：完全饱和的高孔隙率金属泡沫的有效导热系数
8. Effects of carbon nanofibers on cell morphology, thermal conductivity and crush strength of carbon foam. [D] . Fawcett, William Edmond. 2009

机译：碳纳米纤维对碳泡沫的泡孔形态，导热性和抗碎强度的影响。
9. Effect of Needling Parameters and Manufacturing Porosities on the Effective Thermal Conductivity of a 3D Carbon–Carbon Composite [O] . Abdulrahman Alghamdi, Hamzah Alharthi, Ali Alamoudi, 2019

机译：针刺参数和制造孔隙率对3D碳-碳复合材料有效导热系数的影响
10. Effective Thermal Conductivity of High Porosity Open Cell Nickel Foam [O] . Sullins Alan D., Daryabeigi Kamran 2001

机译：高孔隙率开孔镍泡沫的有效导热系数

Effective Thermal Conductivity of High Porosity Open Cell Nickel Foam

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