New progresses and discussion on the survey and research of Li, Be, Ta ore deposits in China
WANG Denghong1, WANG Chenghui1, SUN Yan1, LI Jiankang1, LIU Shanbao1, RAO Kuiyuan2
1.Key Laboratory of Metallogeny and Mineral Resource Assessment, Ministry of Land and Resources; Institute of Mineral Resource, Chinese Academy of Geological Sciences, Beijing 100037, China;
2. No.282 Geological Party, Sichuan Bureau of Geology for Nuclear Industry, Deyang 618000, China
Abstract:Lithium, beryllium and tantalum are the most important rare metals currently, especially with the increasing demand of emerging industries on rare metals. Moreover, this phenomenon has led the prospecting work to make a series of new progresses. The study of lithium and other rare metals mineralization mechanism is not thorough, and there is still a series of debate around this study. Based on many years of practice, this paper put forward a new understanding of “multi-cycle, deep circulation, integration of internal and external” mechanism for the mineralization of lithium. In addition, the “five levels + basement” exploration model was expanded, and the prospecting work in the Keeryin pegmatite ore field, in the Jiajika pegmatite ore in western Sichuan, in the Mufushan-Jiuling ore district in the Hunan-Hubei-Jiangxi border area, and in the central orogenic belt of the Qinba Mountain, was guided based on the new understanding. New progresses have been made in the program of looking for spodumene deposies of pegmatite type, amblygonite deposits of granite-type and beryllium deposit of strata-bound hydrothermal type, pointing out a new direction and opening a new window for prospecting rare metal deposits in China.
王登红, 王成辉, 孙艳, 李建康, 刘善宝, 饶魁元. 我国锂铍钽矿床调查研究进展及相关问题简述[J]. 中国地质调查, 2017, 4(5): 1-8.
WANG Denghong, WANG Chenghui, SUN Yan, LI Jiankang, LIU Shanbao, RAO Kuiyuan. New progresses and discussion on the survey and research of Li, Be, Ta ore deposits in China. , 2017, 4(5): 1-8.
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2017, Vol. 4 
