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Super-microstructure evolution caused by polysomatic reaction of Heishan hypersthene associated with fluid
By means of transmission electron microscopy (TEM), the study on hypersthene megacryst and uralitized hypersthene from anorthosite complex of Chengde, Hebei Province of China shows that the layer silicate minerals such as talc and smectite would grow on the (100) under the condition of supergenesis. This kind of silicate is the product of the polysomatic reaction, and their evolution of growth from small to big was observed by TEM. In most cases, the layer silicate nucleus in the form of rhomb block firstly grow out of the interfaces of the augite exsolution lamellae in the hypersthene matrix. The boundary faces of the rhomb blocks are parallel to {210} of hypersthene. The small blocks could link each other in the form of veins, and further in the form of flakes. It is proposed that the growth of layer silicates is constrained by the nucleation mechanism of polysomatic reaction. The characteristics of the super-microstructure for the uralitized hypersthenes show that the polysomatic reaction from pyroxene to amphiboles is caused by the bulk reaction mechanism.
作 者: XUE Jiyue PAN Yuguan 作者单位: Department of Earth Sciences, Nanjing University, Nanjing 210093, China 刊 名: 科学通报(英文版) SCI 英文刊名: CHINESE SCIENCE BULLETIN 年,卷(期): 2005 50(14) 分类号: P5 关键词: biopyribole series hypersthene uralitized hypersthene transmission electron microscopy (TEM) super-microstructure【Super-microstructure evolution cause】相关文章:
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