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Effect of Temperature, Pressure, and Chemical Composition on the Electrical Conductivity of Schist: Implications for Electrical Structures under the Tibetan Plateau
Wenqing Sun;  Lidong Dai;  Heping Li;  Haiying Hu;  Changcai Liu;  Mengqi Wang
2019
发表期刊Materials
卷号12期号:6页码:1-14
摘要

The experimental study on the electrical conductivities of schists with various contents of alkali ions (C-A = K2O + Na2O = 3.94, 5.17, and 5.78 wt.%) were performed at high temperatures (623-1073 K) and high pressures (0.5-2.5 GPa). Experimental results indicated that the conductivities of schist markedly increased with the rise of temperature. Pressure influence on the conductivities of schist was extremely weak at the entire range of experimental temperatures. Alkali ion content has a significant influence on the conductivities of the schist samples in a lower temperature range (623-773 K), and the influence gradually decreases with increasing temperature in a higher temperature range (823-1073 K). In addition, the activation enthalpies for the conductivities of three schist samples were fitted as being 44.16-61.44 kJ/mol. Based on the activation enthalpies and previous studies, impurity alkaline ions (K+ and Na+) were proposed as the charge carriers of schist. Furthermore, electrical conductivities of schist (10(-3.5)-10(-1.5) S/m) were lower than those of high-conductivity layers under the Tibetan Plateau (10(-1)-10(0) S/m). It was implied that the presence of schist cannot cause the high-conductivity anomalies in the middle to lower crust beneath the Tibetan Plateau.

关键词Schist Electrical Conductivity High Pressure Chemical Compositions Conduction Mechanism Tibetan Plateau
收录类别SCI
语种英语
文献类型期刊论文
条目标识符http://ir.gyig.ac.cn/handle/42920512-1/10239
专题地球内部物质高温高压实验室
作者单位1.Key Laboratory of High-Temperature and High-Pressure Study of the Earth’s Interior, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550081, China
2.University of Chinese Academy of Sciences, Beijing 100049, China
推荐引用方式
GB/T 7714
Wenqing Sun;Lidong Dai;Heping Li;Haiying Hu;Changcai Liu;Mengqi Wang. Effect of Temperature, Pressure, and Chemical Composition on the Electrical Conductivity of Schist: Implications for Electrical Structures under the Tibetan Plateau[J]. Materials,2019,12(6):1-14.
APA Wenqing Sun;Lidong Dai;Heping Li;Haiying Hu;Changcai Liu;Mengqi Wang.(2019).Effect of Temperature, Pressure, and Chemical Composition on the Electrical Conductivity of Schist: Implications for Electrical Structures under the Tibetan Plateau.Materials,12(6),1-14.
MLA Wenqing Sun;Lidong Dai;Heping Li;Haiying Hu;Changcai Liu;Mengqi Wang."Effect of Temperature, Pressure, and Chemical Composition on the Electrical Conductivity of Schist: Implications for Electrical Structures under the Tibetan Plateau".Materials 12.6(2019):1-14.
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