卡尔巴地区稀有金属和伟晶岩矿床的形成、物质组成及地质构造特征——以玉二烯矿为例

IF 0.6 Q4 ENGINEERING, GEOLOGICAL
Tatyana A. Oitseva, B. Dyachkov, A. Bissatova, G. Orazbekova, Stanislav S. Zinyakin
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引用次数: 0

摘要

引用链接:Oitseva t.a., Dyachkov b.a., Bissatova a.v ye。, Orazbekova g.b., Zinyakin S.S.。卡尔巴地区稀有金属和伟晶岩矿床的形成、物质组成和地质构造特征——以Yubileinoe矿床为例。托木斯克理工大学公报。岩土工程Аssets, 2023,第334卷,第2期。7,рр。164 - 176。俄文。由于缺乏对卡尔巴地区伟晶岩成矿过程中稀有金属行为的认识,以及扩大该地区稀有金属矿产资源基础和建立地质成矿填图的需要,导致了本研究的相关性。研究的主要目的是识别尤比列诺伊(卡尔巴地区)稀有金属矿床的大地构造发育特征、地质构造和物质组成。研究范围:大型工业稀有金属矿床Yubileynoe及其矿物复合体。方法:对工作区域进行详细的地质-地球化学和矿物学研究,利用往年作品中的材料、原始文献以及实验室研究(质谱、微探针、年代学和其他研究)。在诊断矿物复合体时,考虑了矿物之间的结构关系以及实验室研究结果的地球化学解释。结果。研究了稀土伟晶岩矿床(Nb、Ta、Be、Cs、Li、Sn)与卡尔巴杂岩体P1 (285 Ma) I相花岗岩的空间关系和成因关系。在玉bileinoe矿床所在地,海西旋回更新的古深纬向断裂体系起主导控矿作用。提出了玉bileinoe矿床稀有金属伟晶岩形成的节律脉动地质成因模式,反映了从寡长-微斜长石(贫)到钠长石、辉石矿、含锂辉石矿和含榴辉石矿(矿)的分带性发育。获得了标型矿物(克利夫兰、锂云母、彩色电气石、锂辉石、污染石、伊绿石等)释放的辉晶岩矿石组成和稀有金属矿床的主要地球化学元素(Nb、Ta、Be、Cs、Li、F、P等)的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
FEATURES OF FORMATION, MATERIAL COMPOSITION AND GEOLOGICAL STRUCTURE OF RARE METAL AND PEGMATITE DEPOSITS OF THE KALBA REGION ON THE EXAMPLE OF THE YUBILEINOE DEPOSIT
Link for citation: Oitseva T.A., Dyachkov B.A., Bissatova A.Ye., Orazbekova G.B., Zinyakin S.S. Features of formation, material composition and geological structure of rare metal and pegmatite deposits of the Kalba region on the example of the Yubileinoe deposit. Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering, 2023, vol. 334, no. 7, рр. 164-176. In Rus. The relevance of the research is caused by the lack of knowledge on the behavior of rare metal in pegmatite ore formation in the Kalba region and the need to expand the rare-metal mineral resource base of the region and to establish geological and mineragenic mapping. The main aims of the research are identification of features of geotectonic development, geological structure and material composition of the rare-metal deposit Yubileynoe (Kalba region). Study area: large industrial rare metal deposit Yubileynoe and its mineral complexes. Methods: detailed geological-geochemical and mineralogical study of the region of work, use of materials from works of previous years, stock literature, as well as laboratory studies (mass spectrometric, microprobe, geochronological and other studies). The structural relationships of minerals with each other, as well as the geochemical interpretation of the results of laboratory studies, were taken into account during diagnosing mineral complexes. Results. Spatial and genetic relationship of rare-metal pegmatite deposit (Nb, Ta, Be, Cs, Li, Sn) with granites of the I phase of the Kalba complex P1 (285 Ma), is distinguished. In the location of the Yubileinoe deposit, the leading ore-controlling role is given to the system of deep latitudinal faults of ancient origin, renewed in the Hercynian cycle. A geological and genetic model of rhythmically pulsating rare-metal pegmatite formation of the Yubileinoe deposit is presented, which reflects the zonal development of mineral complexes from oligoclase-microcline (barren) to albite, greisen, spodumene-containing and pollucite-bearing (ore) with an increasing concentration of mineralization. Information was obtained on the composition of pegmatite ores with the release of typomorphic minerals (clevelandite, lepidolite, colored tourmalines, spodumene, pollucite, ixiolite, etc.) and the main geochemical elements of rare metal ore formation (Nb, Ta, Be, Cs, Li, F, P, etc.).
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