构造应力化学对成矿作用的影响综述

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Nannan Cheng , Mengyan Shi , Quanlin Hou , Jin Wang , Jienan Pan
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引用次数: 0

摘要

构造作用在成矿过程中往往起着重要的作用,一般认为构造作用是控制经济物质(如金、煤、油气)通过变形聚集的主要因素。然而,大量的实验和理论研究表明,构造应力不仅引起岩石和矿物的变形(物理变化),而且通过直接作用于化学键,引起键的断裂或再生,促进其化学变化,称为构造应力化学(TSC)。近年来,构造活动引起的TSC作用为解释剪切应力作用下煤的化学结构演化、烃形成、有机(煤源)和无机石墨化、热液成矿等提供了新的思路和证据。这些背景研究为构造应力在成矿过程中如何影响矿物、岩石甚至成矿流体的化学结构提供了激励和见解。本文简要回顾了:(1)TSC的概念;(2)剪切带型金矿形成过程中从应力集中、脆性破裂、流体压力突然降低、闪蒸到金沉淀的TSC过程;(3)通过变形实验和分子动力学模拟研究剪切应力作用下煤与瓦斯生成的大分子结构演化机理;(4)剪切应力作用下基本结构单元的择优取向和伸展导致煤源石墨化;(5)碳酸盐岩剪切带中无机石墨化的初步实验探索。此外,还讨论了这些工艺存在的一些问题和可能的解决办法。最后,我们在广泛的地质过程中提出了其他潜在的TSC过程,例如变形与变质的关系以及慢滑地震的触发机制。为了进一步探索这些过程,研究人员应该将实验和分子动力学模拟相结合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The impact of tectonic stress chemistry on mineralization processes: A review

The impact of tectonic stress chemistry on mineralization processes: A review

Tectonism often plays an important role in the mineralization process, which is generally thought to be the main controlling factor in the accumulation of economic materials (e.g., gold, coal, oil and gas) through deformation. However, numerous experimental and theoretical studies have suggested that tectonic stress not only causes deformation (physical changes) in rocks and minerals but also promotes their chemical changes by acting directly on chemical bonds and causing bond scission or regeneration, called tectonic stress chemistry (TSC). In recent years, TSC actions caused by tectonic activities have provided new ideas and evidence for explaining the chemical structural evolution of coal, hydrocarbon formation, organic (coal-derived) and inorganic graphitization and hydrothermal mineralization under shear stress. These background studies have provided incentives and insights into how tectonic stress affects the chemical structures of minerals, rocks and even ore-forming fluids in the process of mineralization. In this paper, we briefly review: (1) the concept of TSC; (2) the TSC process in the formation of shear zone type gold deposits from stress concentration, brittle fracturing, sudden reduction of fluid pressure, and flash vaporization to gold precipitation; (3) mechanisms of the macromolecular structural evolution of coal and gas generation under shear stress from deformation experiments and molecular dynamic simulations; (4) coal-derived graphitization caused by preferred orientation and extension of the basic structural units (BSUs) under shear stress; and (5) some preliminary experimental explorations on inorganic graphitization in carbonate-hosted shear zones. In addition, some existing problems and possible solutions for these processes are also discussed. Finally, we propose additional potential TSC processes in extensive geological processes, e.g., the relationship between deformation and metamorphism and trigger mechanisms of slow-slip earthquakes. To further explore these processes, a combination of experiments and molecular dynamic simulations should be undertaken by researchers.

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来源期刊
Solid Earth Sciences
Solid Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
3.60
自引率
5.00%
发文量
20
审稿时长
103 days
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