| 高温高压下电导-温度曲线方法进行蛇纹石的脱水温度测量及其意义 |
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| 引用本文: | 宋茂双,谢鸿森,郑海飞,郭捷,徐有生,张月明,许祖鸣.高温高压下电导-温度曲线方法进行蛇纹石的脱水温度测量及其意义[J].矿物学报,1996,16(2):178-183. |
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| 作者姓名: | 宋茂双 谢鸿森 郑海飞 郭捷 徐有生 张月明 许祖鸣 |
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| 作者单位: | 中国科学院地球化学研究所地球深部物质实验室!贵阳,550002,中国科学院地球化学研究所地球深部物质实验室!贵阳,550002,北京大学地质系工作!北京,100871,中国科学院地球化学研究所地球深部物质实验室!贵阳,550002,中国科学院地球化学研究所地球深部物质实验室!贵阳,550002 |
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| 摘 要: | 在1.0~5.0GPa压力范围内,运用高温同时高压下电导测量方法确定了蛇纹石的脱水温度。实验结果表明,压力小于2.0GPa时叶蛇纹石的脱水温度随压力的增大呈微弱升高趋势,压力大于2.0GPa时其脱水温度随压力的增大明显降低,意味着较高压力下有利于脱水反应的发生,是俯冲带岩浆作用及地幔交代作用流体的重要来源。蛇纹石脱水后,由于自由水的存在导致其电导明显增加,可能是高导层产生的原因之一。
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| 关 键 词: | 高温高压 蛇纹石 电导 脱水温度 |
DEHYDRATION TEMPERATURE OF SERPENTINE AT ELEVATED TEMPERATURES AND PRESSURES BY ELECTRICAL CONDUCTIVITY METHOD AND ITS IMPLICATIONS |
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| Song Maoshuang, Xie Hongsen, Zhang YuemingXu Yousheng, Guo Jie, Xu Zuming, Xu Huigang.DEHYDRATION TEMPERATURE OF SERPENTINE AT ELEVATED TEMPERATURES AND PRESSURES BY ELECTRICAL CONDUCTIVITY METHOD AND ITS IMPLICATIONS[J].Acta Mineralogica Sinica,1996,16(2):178-183. |
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| Authors: | Song Maoshuang Xie Hongsen Zhang YuemingXu Yousheng Guo Jie Xu Zuming Xu Huigang |
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| Abstract: | Dehydration temperatures of serpentine were measured in the pressure range between 1. 0 GPa and 5. 0 GPa hy using the electrical conductivity method simutaneously at high tempera-tures and high pressures. The results show that with increasing pressure the dehydration tempera-ture of antigorite increases slightly below 2. 0 GPa, but drops markedly above 2. 0 GPa. This strongly suggests that high pressure would favor the dehydration of serpentine minerals and the water released thereby would be an important source of fluids involved in magmatism in a subduc-tion zone and mantle metasomatism. Meanwhile, the greatly enhanced electric conductivity in the presence of water may be one of the reasons underlying the occurrence of a high-conductivity zone in the lower crust. |
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| Keywords: | high temperature and high pressure serpentine electrical conductivity dehydration temperature |
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