乌克兰盾区velyka vyska正长岩体变质矿物晶体化学新数据

IF 0.5 Q4 MINERALOGY
E. Grechanovskaya, I.M. Lunova, S. Kurylo, V. Belskyi
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引用次数: 0

摘要

利用x射线衍射和电子探针显微分析(EPMA)研究了乌克兰盾区korson - novmyrgorod岩体长石正长岩中allanite、chevkinite和britholite等变质矿物的结构特征和组成。正长岩年龄为1.7 ~ 1.8 Ga,与它们在乌克兰地盾内的形成年龄相符。x射线分析表明,在原样品中,chevkinite和allanite在16-28°2Θ之间有一个较宽的衍射峰,并且在半异晶allanite和brithite反射最强烈的区域有Bragg反射,表明chevkinite和allanite处于异晶状态。放射性钍的含量(0.25 ~ 0.33 apfu)高于褐纹石(0.024 ~ 0.033 apfu)。计算得到的chevkinite和allanite样品的单胞参数表明,退火后它们的结构发生了显著的变化。由于a边的减少和b边和c边的增加,chevkinite单细胞有轻微的畸变。在加热过程中,由于结构中阳离子的重新分配和铁的氧化(Fe2+→Fe3+),引起了丙烯体中b的减少和c的增加。从而降低了allanite结构的稳定性,最终破坏。雪斑岩和allanite的结构位A和A2主要由铈族稀土元素占据。Y的量很小。出现了А2(REE)3+ + М3М2+→А2Са2+ + М3М3+(allanite)和M2Fe3+ + M3,4Ti4+ (chevkinite)的替代机制。chevkinite结构中的M2位点和allanite结构中的M3位点含Fe2+多于Fe3+。这导致其结构中化学键的减弱,并导致其结构的逐步破坏和部分或全部的甲基化。褐纹岩包裹体属Y型。它们的形成时间可能比Velyka - Vyska地块的allanite和chevkinite晚得多。根据EPMA结果,即bse图像和REE含量测定,allanite和chevkinite几乎同时形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NEW DATA ON THE CRYSTAL-CHEMISTRY OF METAMICT MINERALS FROM THE VELYKA VYSKA SYENITE MASSIF (UKRAINIAN SHIELD)
The structural properties and composition of metamict minerals, namely allanite, chevkinite, and britholite, occurring as inclusions in allanite from feldspar syenites of the Velyka Vyska massif (Korsun-Novomyrgorod pluton, Ukrainian Shield) were investigated by X-ray diffraction and electron probe microanalysis (EPMA). The age of the syenites is 1.7-1.8 Ga, which corresponds to their formation ages within the Ukrainian Shield. X-ray analysis shows that of the original samples of chevkinite and allanite give a broad diffraction peak between 16—28° 2Θ as well as Bragg reflections in the region of the most intense reflections of semimetamict allanite and britholite, indicating the metamict state of chevkinite and the semimetamict state of allanite. The content of radioactive Th found in the chevkinite (0.25-0.33 apfu) is higher compared to its amount in allanite (0.024-0.033 apfu). Calculated unit-cell parameters of the chevkinite and allanite samples showed that their structures underwent significant changes after annealing. There is a slight distortion of the chevkinite unit cell related to a decrease in the a and an increase in b and c edges. A decrease in b and the increase in c in the allanite is caused by a redistribution of cations in the structure and an oxidation of iron, Fe2+ → Fe3+, during heating. Thereby the stability of the allanite structure decreases and it ultimately breaks down. The structural sites A and A2 in chevkinite and allanite are mainly occupied by REEs of the cerium group. The amount of Y is minor. The substitution mechanism А2(REE)3+ + М3М2+ → А2Са2+ + М3М3+(allanite) and M2Fe3+ + M3,4Ti4+↔ M2Fe2+ + M3,4Nb5+ (chevkinite) occur. The M2 site in the structure of chevkinite and M3 in allanite contain more Fe2+ than Fe3+. This leads to a weakening of the bonds in their structures, and a stepwise breakdown and partial or total metamictization of their structures. The britholite inclusions in allanite belong to the Y variety. They were probably formed much later than allanite and chevkinite in the Velyka Vyska massif. According to the EPMA results, namely BSE-images and REE content determinations, allanite and chevkinite formed almost simultaneously.
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