碳质板岩是一种特殊的天然岩石,在高温高压下具有异常高的导电性

IF 1.1 4区 工程技术 Q4 Engineering
Wenqing Sun, Lidong Dai, Heping Li, Haiying Hu, Jian-jun Jiang, Changcai Liu
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引用次数: 1

摘要

在0.5 ~ 1.5 GPa和423 ~ 973 K条件下,在10-1 ~ 3.5×106 Hz频率范围内,采用复阻抗谱技术测量了碳质板岩的电导率。实验结果表明,随着温度和压力的升高,碳质板岩的电导率略有升高。在一定温度范围内,碳质板岩的电导率遵循Arrhenius关系。碳质板岩在一定压力下的电导率存在三个阿伦尼乌斯关系。从高温区到低温区,碳质板岩电导率的活化焓分别为0.02 ~ 0.03 eV、0.05 ~ 0.06 eV和0.11 ~ 0.13 eV。电子传导是碳质板岩在高温高压下的传导机制。碳质板岩的异常高电导率(0.1-1 S/m)与非晶碳互连有关。此外,碳质岩石的电导率可以用来解释地球内部的高导电性层(hcl)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental study on the electrical properties of carbonaceous slate: a special natural rock with unusually high conductivity at high temperatures and pressures
The electrical conductivities of carbonaceous slate were measured using a complex impedance spectroscopic technique at 0.5−1.5 GPa and 423−973 K in the frequency range of 10-1 to 3.5×106 Hz. Experimental results indicate that the conductivities of carbonaceous slate slightly increased with increasing temperatures and pressures, respectively. At a certain temperature range, the conductivities of carbonaceous slate follow an Arrhenius relation. There are three Arrhenius relations for the conductivities of carbonaceous slate at a certain pressure. From high temperature range to low temperature range, the activation enthalpies for the conductivities of carbonaceous slate are found to be 0.02‒0.03 eV, 0.05‒0.06 eV, and 0.11‒0.13 eV, respectively. Electron conduction is proposed to be the conduction mechanism for carbonaceous slate at high temperatures and pressures. It is suggested that the unusually high conductivities of carbonaceous slate (0.1‒1 S/m) are associated to interconnected amorphous carbon. Furthermore, the electrical conductivities of carbonaceous rocks can be used to interpret the high-conductivity layers (HCLs) in the Earth’s interior.
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来源期刊
High Temperatures-high Pressures
High Temperatures-high Pressures THERMODYNAMICS-MECHANICS
CiteScore
1.00
自引率
9.10%
发文量
6
期刊介绍: High Temperatures – High Pressures (HTHP) is an international journal publishing original peer-reviewed papers devoted to experimental and theoretical studies on thermophysical properties of matter, as well as experimental and modelling solutions for applications where control of thermophysical properties is critical, e.g. additive manufacturing. These studies deal with thermodynamic, thermal, and mechanical behaviour of materials, including transport and radiative properties. The journal provides a platform for disseminating knowledge of thermophysical properties, their measurement, their applications, equipment and techniques. HTHP covers the thermophysical properties of gases, liquids, and solids at all temperatures and under all physical conditions, with special emphasis on matter and applications under extreme conditions, e.g. high temperatures and high pressures. Additionally, HTHP publishes authoritative reviews of advances in thermophysics research, critical compilations of existing data, new technology, and industrial applications, plus book reviews.
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