ankerite
简明释义
n. [矿物] 铁白云石
英英释义
Ankerite is a carbonate mineral that is a member of the dolomite group, consisting primarily of calcium, iron, and magnesium carbonates. | 安克石是一种碳酸盐矿物,属于白云石组,主要由钙、铁和镁的碳酸盐组成。 |
单词用法
安克莱特矿物 | |
安克莱特成分 | |
安克莱特矿床 | |
在安克莱特中发现 | |
由安克莱特组成 | |
与安克莱特相关 |
同义词
| 铁白云石 | The mineral ferroan dolomite is often found in sedimentary rock formations. | 矿物铁白云石通常出现在沉积岩层中。 | |
| 方解石 | Calcite is commonly used in the construction industry for its properties. | 方解石因其特性在建筑行业中常被使用。 |
反义词
| 方解石 | 方解石常见于沉积岩中。 | ||
| 白云石 | 白云石常用作建筑材料。 |
例句
1.Ankerite is one of the main gangue minerals genetically related to gold mineralization in the Baguamiao giant gold deposit.
铁白云石是八卦庙超大型金矿床的主要脉石矿物,与金的矿化关系十分密切。
2.X-ray studies show that carbonate minerals are aragonite, high-Mg calcite, and lesser dolomite, ankerite and siderite.
碳酸盐岩中自生碳酸盐矿物主要为文石、高镁方解石,少量白云石、铁白云石和菱铁矿。
3.Ankerite is one of the main gangue minerals genetically related to gold mineralization in the Baguamiao giant gold deposit.
铁白云石是八卦庙超大型金矿床的主要脉石矿物,与金的矿化关系十分密切。
4.Geologists often study ankerite 方解石 to understand the formation processes of sedimentary rocks.
地质学家经常研究ankerite 方解石以了解沉积岩的形成过程。
5.The mineral deposit contains significant amounts of ankerite 方解石, which is valuable for industrial applications.
矿床中含有大量的ankerite 方解石,这在工业应用中非常有价值。
6.Mining companies are exploring new sites rich in ankerite 方解石 for potential extraction.
矿业公司正在探索富含ankerite 方解石的新地点以进行潜在开采。
7.The presence of ankerite 方解石 in the rock suggests a history of mineral alteration.
岩石中存在ankerite 方解石表明有矿物改造的历史。
8.In the lab, we identified the sample as ankerite 方解石 using X-ray diffraction techniques.
在实验室中,我们使用X射线衍射技术将样品鉴定为ankerite 方解石。
作文
Ankerite is a carbonate mineral that is often found in sedimentary rocks and can play a significant role in various geological processes. This mineral, which is composed mainly of calcium, iron, magnesium, and carbonate ions, can be an important indicator of the conditions under which certain rocks were formed. Understanding the properties and formation of ankerite (安克石) can provide valuable insights into the history of the Earth's crust and the environments that existed millions of years ago.In geology, minerals are classified based on their chemical composition and crystal structure. Ankerite (安克石), for instance, has a unique formula that distinguishes it from other carbonate minerals like calcite and dolomite. While calcite is primarily composed of calcium carbonate, ankerite (安克石) contains iron, which gives it different physical properties and colors. The presence of iron in its structure can lead to variations in color, often resulting in shades of brown or yellow, making it visually distinct from its more common relatives.The formation of ankerite (安克石) typically occurs in environments where iron-rich fluids interact with carbonate sediments. This process can happen in various geological settings, including sedimentary basins and hydrothermal systems. As such, the study of ankerite (安克石) can reveal information about past environmental conditions, including the chemistry of ancient oceans and the processes that led to the deposition of sedimentary layers.In addition to its geological significance, ankerite (安克石) also has practical applications. It is sometimes used as a flux in steelmaking, where its iron content can help to remove impurities during the production process. Furthermore, due to its unique properties, ankerite (安克石) can also be of interest to mineral collectors and researchers who study the diversity of carbonate minerals.When discussing the economic importance of ankerite (安克石), it is essential to consider its role in the mining industry. Deposits of ankerite (安克石) can indicate the presence of other valuable minerals, making it a target for exploration. By analyzing the geological context of ankerite (安克石) deposits, geologists can identify areas that may contain economically viable resources, contributing to the sustainable development of mineral extraction.In conclusion, ankerite (安克石) is more than just a mineral; it is a key player in understanding geological processes and the history of our planet. Its unique composition and formation conditions offer valuable insights into the Earth's past environments and contribute to various industrial applications. As we continue to explore and study minerals like ankerite (安克石), we deepen our understanding of the intricate systems that shape our world, paving the way for future discoveries and advancements in geology and related fields.
安克石是一种碳酸盐矿物,通常在沉积岩中发现,并且在各种地质过程中可以发挥重要作用。这种矿物主要由钙、铁、镁和碳酸根离子组成,可以作为某些岩石形成条件的重要指标。理解安克石(ankerite)的性质和形成可以为我们提供关于地球地壳历史和数百万年前存在的环境的宝贵见解。在地质学中,矿物根据其化学成分和晶体结构进行分类。例如,安克石(ankerite)具有独特的化学式,使其与其他碳酸盐矿物如方解石和白云石区分开来。方解石主要由碳酸钙组成,而安克石(ankerite)含有铁,这使其具有不同的物理特性和颜色。铁的存在使其在颜色上产生变化,通常呈现出棕色或黄色的阴影,从而使其在视觉上与更常见的亲属矿物区分开来。安克石(ankerite)的形成通常发生在铁富集流体与碳酸盐沉积物相互作用的环境中。这一过程可以发生在多种地质背景下,包括沉积盆地和热液系统。因此,对安克石(ankerite)的研究可以揭示关于古代环境条件的信息,包括古海洋的化学成分以及导致沉积层沉积的过程。除了其地质重要性外,安克石(ankerite)还有实际应用。它有时用作钢铁生产中的熔剂,其中的铁含量可以帮助在生产过程中去除杂质。此外,由于其独特的特性,安克石(ankerite)也可能引起矿物收藏家和研究者的兴趣,他们研究碳酸盐矿物的多样性。在讨论安克石(ankerite)的经济重要性时,考虑其在采矿行业中的作用至关重要。安克石(ankerite)矿床可以表明其他有价值矿物的存在,使其成为勘探的目标。通过分析安克石(ankerite)矿床的地质背景,地质学家可以识别可能包含经济可行资源的区域,从而促进矿产开采的可持续发展。总之,安克石(ankerite)不仅仅是一种矿物;它是理解地质过程和我们星球历史的关键角色。其独特的成分和形成条件为我们提供了关于地球过去环境的宝贵见解,并对各种工业应用做出了贡献。随着我们继续探索和研究像安克石(ankerite)这样的矿物,我们加深了对塑造我们世界的复杂系统的理解,为未来的发现和地质及相关领域的进步铺平了道路。
