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高温高压下矿物岩石热导率的实验研究进展
Progress of high temperature and high pressure experimental study on the thermal conductivity of the minerals and rocks

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文摘 高温高压下矿物和岩石的热导率是了解地球内部动力学机制,层圈温度分布和地球热演化历史的重要参数.本文综述了最近五十年来高温高压下矿物和岩石热导率测量的相关进展,包括在大压机和金刚石压压砧中测量矿物和岩石晶格热导率的方法技术,和相应的不同时期获得的实验结果,最后阐述了热导率在固体地球科学中的应用及存在的问题.
其他语种文摘 Thermal conductivity of minerals and rocks under high temperature and high pressure is an important parameter to understand the dynamic mechanism, temperature distribution and the thermal evolution history of the Earth. The progress of measurement of thermal conductivity of minerals and rocks under high temperatures and pressures in the last fifty years was reviewed. Including the measuring methods of the lattice thermal conductivity for minerals and rocks in the large press and diamond anvil and the experimental results obtained by the different periods. Finally the applications of thermal conductivity in solid earth sciences and existing problems of experimental research were elaborated.
来源 地球物理学进展 ,2013,28(5):2453-2466 【核心库】
关键词 高温高压 ; 热导率 ; 热扩散系数 ; 实验方法 ; 影响因素 ; 研究进展
地址

中国科学院地球化学研究所地球内部物质高温高压实验室, 贵阳, 550002

语种 中文
文献类型 综述型
ISSN 1004-2903
学科 地球物理学
基金 中国科学院“135”项目资助
文献收藏号 CSCD:4994183

参考文献 共 63 共4页

1.  Fujisawa H. Thermal diffusivity of Mg_2SiO_4, Fe_2SiO_4 and NaCl at high pressures and temperatures. Journal of Geophysical Research,1968,73(14):4727-4733 被引 3    
2.  Yanagawa T. Influence of lattice thermal conductivity on thermal convection with strongly temperaturedependent viscosity. Earth Planets and Space,2005,57(1):15-28 被引 2    
3.  Chapman D S. Thermal gradients in the continental crust. Geological Society,London,Special Publications,1986,24(1):63-70 被引 12    
4.  Marton F C. Effects of variable thermal conductivity on the mineralogy of subducting slabs and implications for mechanisms of deep earthquakes. Physics of the Earth and Planetary Interiors,2005,149(1/2):53-64 被引 8    
5.  Stacey F D. A revised estimate of the conductivity of iron alloy at high pressure and implications for the core energy balance. Physics of the Earth and Planetary Interiors,2007,161(1/2):13-18 被引 7    
6.  Bridgman P W. The thermal conductivity and compressibility of several rocks under high pressures. American Journal of Science,1924,5/7(38):81-102 被引 1    
7.  Yagi T. Thermal diffusivity measurement in a diamond anvil cell using a light pulse thermoreflectance technique. Measurement Science & Technology,2011,22(2) 被引 4    
8.  Brydsten U. Thermal conductivity of single-crystal nacl under uniaxial compression. Journal of Physics C-Solid State Physics,1983,16(1):143-146 被引 2    
9.  Beck A E. Lattice conductivities of single-crystal and polycrystalline materials at mantle pressures and temperatures. Physics of the Earth and Planetary Interiors,1978,17(1):35-53 被引 5    
10.  Yukutake H. Thermal conductivity of NaCl,MgO, coesite and stishovite up to 40kbar. Physics of the Earth and Planetary Interiors,1978,17(3):193-200 被引 3    
11.  Abdulagatov I M. Effect of pressure and temperature on the thermal conductivity of rocks. Journal of Chemical and Engineering Data,2006,51(1):22-33 被引 5    
12.  Andersson P. Thermal conductivity of solids under pressure by the transient hot wire method. Review of Scientific Instruments,1976,47(2):205-209 被引 6    
13.  Horai K. The effect of pressure on the thermal conductivity of silicate rocks up to 12kbar. Physics of the Earth and Planetary Interiors,1989,55(3/4):292-305 被引 4    
14.  Hakansson B. Improved hotwire procedure for thermophysical measurements under pressure. Review of Scientific Instruments,1988,59(10):2269-2275 被引 1    
15.  Kieffer S W. Experimental determination of pressure dependence of thermal diffusivity of teflon,sodium-chloride,quartz,and silica. Journal of Geophysical Research,1976,81(17):3018-3024 被引 1    
16.  Seipold U. Simultaneous measurements of thermal diffusivity and thermal conductivity under high pressure using thermal pulses of finite length. High Temperatures-High Pressures,1988,20:609-613 被引 1    
17.  Tommasi A. Anisotropy of thermal diffusivity in the upper mantle. Nature,2001,411(6839):783-786 被引 15    
18.  Dzhavadov L N. Measurement of thermophysical properties of dielectrics under pressure. High Temperatures-High Pressures,1975,7:49-54 被引 4    
19.  Osako M. Simultaneous measurements of thermal conductivity and thermal diffusivity for garnet and olivine under high pressure. Physics of the Earth and Planetary Interiors,2004,143/144:311-320 被引 8    
20.  Osako M. Thermal diffusivity,thermal conductivity and heat capacity of serpentine (antigorite) under high pressure. Physics of the Earth and Planetary Interiors,2010,183(1/2):229-233 被引 3    
引证文献 3

1 苗社强 激光闪射法测量一种砂岩的高温热扩散系数和热导率 矿物岩石地球化学通报,2017,36(3):450-454
被引 4

2 周西华 煤岩体导热系数试验及单因子方差分析 安全与环境学报,2017,17(4):1303-1308
被引 1

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