Chelopech矿床的带状tentente - tetrahedron: SEM-EDS研究

IF 0.2 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Spisanie Na B Lgarskoto Geologichesko Druzhestov-Review of the Bulgarian Geological Society Pub Date : 2022-12-01 DOI:10.52215/rev.bgs.2022.83.3.55

Victoria Vangelova, Georgy Lutov

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引用次数: 0

摘要

利用扫描电子能谱仪测定了高至中硫化铜金矿床17段和18段tentente -tetrahedrites的组成和结构。经31次分析确定，四面体主要为富锌体，而四面体主要为含铁体。在带状的腱状-四面体聚集体中，尖锐的锯齿状黄铜矿带是溶解-沉淀耦合反应的证据，在前者的取代过程中。其他tennantite晶体中的精细振荡带也主要与内部“自组织”过程有关，而不是与外部有关。然而，在某些情况下，tennantite基体和四面体边缘和条状之间的不规则边界及其厚度变化可能是由于流体沿弱区渗透到晶体中的不均匀，这是替换而不是过度生长的结果。

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Zonal tennantite-tetrahedrites from the Chelopech deposit: a SEM-EDS study

The composition and structure of tennantite-tetrahedrites from blocks 17 and 18 of the copper-gold high to intermediate sulphidation Chelopech deposit were determined by SEM-EDS. Based on 31 analyses is determined that the tennantites are mostly ferrous, while the tetrahedrites are zinc-rich. In zonal tennantite-tetrahedrite aggregates, sharp saw-shape chalcopyrite bands are evidence of coupled dissolution-precipitation reactions, during the replacement of the former. The fine oscillatory zoning in other tennantite crystals also is related predominantly to internal “self-organization” processes rather than external. In some cases, however, the irregular boundaries between tennantite matrix and tetrahedrite rims and strips and their variable thickness could be due to uneven penetration of fluid into the crystal along the weak zones as a result of replacement rather than overgrowth.

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Spisanie Na B Lgarskoto Geologichesko Druzhestov-Review of the Bulgarian Geological Society GEOSCIENCES, MULTIDISCIPLINARY-

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