热扩散率
在传热分析中,热扩散率(符号:,但注意、和都很常用)是热导率与容积热容之比。
其中:
热扩散率的单位是m2/s。
对于普通的岩石来说, ~ 10-6 m2/s。在300K,空气的热扩散率是0.000024 m2/s。
对于空气的热扩散率与绝对温度之间的关系,参见[1]。
部分材料与物质的热扩散率
材质 | 热扩散率 (mm2/s) | 来源 |
---|---|---|
Pyrolytic graphite, parallel to layers | 1220 | |
碳/碳纤维 at 25 °C | 216.5 | [2] |
氦气 (300 K, 1 atm) | 190 | [3] |
纯银 (99.9%) | 165.63 | |
氢气 (300 K, 1 atm) | 160 | [3] |
金 | 127 | [4] |
铜 at 25 °C | 111 | [2] |
铝 | 97 | [4] |
矽 | 88 | [4] |
铝-10矽-锰-镁 (Silafont 36) at 20 °C | 74.2 | [5] |
6061-T6 铝合金 | 64 | [4] |
钼 (99.95%) at 25 °C | 54.3 | [6] |
铝-5镁-2矽-锰 (Magsimal-59) at 20 °C | 44.0 | [7] |
锡 | 40 | [4] |
水蒸气 (1 atm, 400 K) | 23.38 | |
铁 | 23 | [4] |
氩气 (300 K, 1 atm) | 22 | [3] |
氮气 (300 K, 1 atm) | 22 | [3] |
空气 (300 K) | 19 | [4] |
钢, AISI 1010 (0.1% carbon) | 18.8 | [8] |
氧化铝 (polycrystalline) | 12.0 | |
钢, 1% carbon | 11.72 | |
Si3N4 with CNTs 26 °C | 9.142 | [9] |
Si3N4 without CNTs 26 °C | 8.605 | [9] |
304不锈钢 at 27 °C | 4.2 | [4] |
热解石墨, normal to layers | 3.6 | |
310不锈钢 at 25 °C | 3.352 | [10] |
Inconel 600 at 25 °C | 3.428 | [11] |
石英 | 1.4 | [4] |
砂岩 | 1.15 | |
冰 at 0 °C | 1.02 | |
二氧化矽 (polycrystalline) | 0.83 | [4] |
砖块, common | 0.52 | |
玻璃窗户 | 0.34 | |
砖块, adobe | 0.27 | |
PC塑胶 (polycarbonate) at 25 °C | 0.144 | [12] |
水 at 25 °C | 0.143 | [12] |
PTFE塑胶 (Polytetrafluorethylene) at 25 °C | 0.124 | [13] |
PP塑胶 (polypropylene) at 25 °C | 0.096 | [12] |
尼龙 | 0.09 | |
橡胶 | 0.089 - 0.13 | [14] |
木材 (黄松) | 0.082 | |
石蜡 at 25 °C | 0.081 | [12] |
PVC塑胶 (polyvinyl chloride) | 0.08 | [4] |
引擎用油 (saturated liquid, 100 °C) | 0.0738 | |
酒精 | 0.07 | [4] |
参见
- ^ Brown; Marco. Introduction to Heat Transfer 3rd. McGraw-Hill. 1958. and Eckert; Drake. Heat and Mass Transfer. McGraw-Hill. 1959. ISBN 978-0-89116-553-8. cited in Holman, J.P. Heat Transfer 9th. McGraw-Hill. 2002. ISBN 978-0-07-029639-8.
- ^ 2.0 2.1 V. Casalegno; P. Vavassori; M. Valle; M. Ferraris; M. Salvo; G. Pintsuk. Measurement of thermal properties of a ceramic/metal joint by laser flash method. Journal of Nuclear Materials. 2010, 407 (2): 83. Bibcode:2010JNuM..407...83C. doi:10.1016/j.jnucmat.2010.09.032.
- ^ 3.0 3.1 3.2 3.3 Lide, David R. (编). CDC Handbook of Chemistry and Physics 71st. Boston: Chemical Rubber Publishing Company. 1992. cited in Baierlein, Ralph. Thermal Physics. Cambridge, UK: Cambridge University Press. 1999: 372 [1 December 2011]. ISBN 978-0-521-59082-2.
- ^ 4.00 4.01 4.02 4.03 4.04 4.05 4.06 4.07 4.08 4.09 4.10 4.11 Jim Wilson. Materials Data. August 2007 [2021-11-07]. (原始内容存档于2021-11-08).
- ^ P. Hofer; E. Kaschnitz. Thermal diffusivity of the aluminium alloy Al-10Si-Mn-Mg (Silafont 36) in the solid and liquid states. High Temperatures – High Pressures. 2011, 40 (3–4): 311 [2021-11-07]. (原始内容存档于2016-03-04).
- ^ A. Lindemann; J. Blumm. Measurement of the Thermophysical Properties of Pure Molybdenum. 17th Plansee Seminar 3. 2009.
- ^ E. Kaschnitz; M. Küblböck. Thermal diffusivity of the aluminium alloy Al-5Mg-2Si-Mn (Magsimal-59) in the solid and liquid states. High Temperatures – High Pressures. 2008, 37 (3): 221 [2021-11-07]. (原始内容存档于2016-03-04).
- ^ Lienhard, John H. Lienhard, John H. A Heat Transfer Textbook 5th. Dover Pub. 2019: 715.
- ^ 9.0 9.1 O. Koszor; A. Lindemann; F. Davin; C. Balázsi. Observation of thermophysical and tribological properties of CNT reinforced Si3 N4. Key Engineering Materials. 2009, 409: 354. S2CID 136957396. doi:10.4028/www.scientific.net/KEM.409.354.
- ^ J. Blumm; A. Lindemann; B. Niedrig; R. Campbell. Measurement of Selected Thermophysical Properties of the NPL Certified Reference Material Stainless Steel 310. International Journal of Thermophysics. 2007, 28 (2): 674. Bibcode:2007IJT....28..674B. S2CID 120628607. doi:10.1007/s10765-007-0177-z.
- ^ J. Blumm; A. Lindemann; B. Niedrig. Measurement of the thermophysical properties of an NPL thermal conductivity standard Inconel 600. High Temperatures – High Pressures. 2003–2007, 35/36 (6): 621 [2021-11-07]. doi:10.1068/htjr145. (原始内容存档于2015-09-24).
- ^ 12.0 12.1 12.2 12.3 J. Blumm; A. Lindemann. Characterization of the thermophysical properties of molten polymers and liquids using the flash technique. High Temperatures – High Pressures. 2003–2007, 35/36 (6): 627. doi:10.1068/htjr144.
- ^ J. Blumm; A. Lindemann; M. Meyer; C. Strasser. Characterization of PTFE Using Advanced Thermal Analysis Technique. International Journal of Thermophysics. 2011, 40 (3–4): 311. Bibcode:2010IJT....31.1919B. S2CID 122020437. doi:10.1007/s10765-008-0512-z.
- ^ 引用错误:没有为名为
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