fluorite

简明释义

英[ˈflʊəraɪt]美[ˈflʊəˌraɪt]

n. [矿物] 氟石，[矿物] 萤石

英英释义

单词用法

同义词

反义词

例句

1.I have two large mining companies, mainly barite and fluorite.

我公司拥有两座大型矿山，主要是重晶石和萤石。

2.The mine drainage centrifugal pump operating in the piping with high resistance have smaller fluorite and lower efficiency .

矿山排水离心泵在阻力偏高管网中工作时，其流量偏小，效率低。

3.The ore is high in both fluorite has high content of both fluorite and barite, of that the floatability are similar and hardly to be separated.

某萤石矿石中萤石和重晶石含量高，但矿物可浮性相近，分离难度较大。

4.In addition, the flowsheet structure and the content of heavy metal ions in the slurry have effects on the grade of fluorite concentrates as well.

另外流程结构及矿浆中重金属离子含量对萤石精矿品位也影响较大。

5.XRD patterns show that all SDC powders calcined at various temperatures have a cubic fluorite structure.

XRD测试显示在不同温度预烧的粉体均成立方萤石结构。

6.The reserve of fluorite is considered the first in the world and the potential stock is very big.

我国萤石矿产资源具有以下明显的特点：①储量居世界第一，资源潜力巨大；

7.The flotation reagent and technological flowsheet of producing purity fluorite concentrate by low quality fluorite in Nei Meng Area.

研究了内蒙某低贫萤石矿生产优质低硅萤石精矿的浮选药剂和工艺流程。

8.The mineral known as fluorite is often used in the production of aluminum.

被称为萤石的矿物常用于铝的生产。

9.Geologists often study fluorite to understand the formation of sedimentary rocks.

地质学家常常研究萤石以了解沉积岩的形成。

10.In jewelry making, fluorite is appreciated for its vibrant colors.

在珠宝制作中，萤石因其鲜艳的颜色而受到喜爱。

11.The fluorite crystal is often used in optical instruments due to its low refractive index.

萤石晶体因其低折射率常用于光学仪器。

12.Some people collect fluorite specimens for their unique crystal formations.

一些人收集萤石标本以欣赏其独特的晶体形态。

作文

Fluorite, known scientifically as calcium fluoride, is a fascinating mineral that has captured the interest of geologists and mineral enthusiasts alike. This colorful mineral exhibits a variety of hues, ranging from clear to vibrant greens, purples, and blues. The diverse coloration of fluorite (萤石) can be attributed to the presence of various impurities and the conditions under which it formed. One of the most striking features of fluorite (萤石) is its ability to fluoresce under ultraviolet light, which is where its name originates. This property makes fluorite (萤石) a popular choice among collectors and a subject of study in both geology and physics. The formation of fluorite (萤石) typically occurs in hydrothermal veins, where hot, mineral-rich waters circulate through rock formations. As these fluids cool, they deposit minerals, including fluorite (萤石), in cavities and fractures. This process can result in stunning crystal formations that showcase the mineral's natural beauty. In addition to its aesthetic appeal, fluorite (萤石) also holds significant industrial value. It is used in the production of aluminum, gasoline, and uranium fuel, making it an important resource in various manufacturing processes. In the world of gemology, fluorite (萤石) is often cut into stunning gemstones that are used in jewelry. Its vibrant colors and clarity make it an attractive option for both designers and consumers. However, it is essential to note that fluorite (萤石) is relatively soft compared to other gemstones, ranking only 4 on the Mohs scale of mineral hardness. This means that while it can be beautifully crafted into jewelry, care must be taken to avoid scratches and damage. The study of fluorite (萤石) extends beyond its physical properties; it also plays a role in understanding geological processes. Geologists often use fluorite (萤石) as an indicator mineral, helping them to identify the conditions under which certain rocks formed. By analyzing the composition of fluorite (萤石) deposits, scientists can gain insights into past environmental conditions, including temperature and pressure during mineral formation. In conclusion, fluorite (萤石) is not just a beautiful mineral; it is a vital resource with numerous applications and a rich geological history. Whether you are a collector, a jeweler, or a scientist, understanding fluorite (萤石) opens up a world of knowledge about the Earth's processes and the natural beauty that surrounds us. As we continue to explore and study this remarkable mineral, we uncover more about its significance in both nature and industry, solidifying its place as a key player in the mineral kingdom.

萤石，科学上称为氟化钙，是一种迷人的矿物，吸引了地质学家和矿物爱好者的兴趣。这种多彩的矿物展现出多种色调，从透明到生动的绿色、紫色和蓝色。fluorite（萤石）的多样性色彩可以归因于各种杂质的存在以及它形成时的条件。fluorite（萤石）最显著的特征之一是在紫外光下能够发光，这也是其名称的由来。这一特性使得fluorite（萤石）成为收藏家和地质学与物理学研究的热门选择。 fluorite（萤石）的形成通常发生在热液脉中，热的富矿水在岩石层中循环。当这些流体冷却时，它们会在空腔和裂缝中沉淀矿物，包括fluorite（萤石）。这一过程可能导致令人惊叹的晶体形成，展示出矿物的自然美感。除了其美学吸引力外，fluorite（萤石）在工业上也具有重要价值。它被用于铝、汽油和铀燃料的生产，使其成为各种制造过程中的重要资源。 在宝石学领域，fluorite（萤石）常被切割成用于珠宝的惊艳宝石。其鲜艳的颜色和清晰度使其成为设计师和消费者的吸引选择。然而，需要注意的是，fluorite（萤石）相较于其他宝石相对较软，在摩氏硬度等级中仅排名4。这意味着虽然它可以被美丽地制作成珠宝，但必须小心以避免划伤和损坏。 对fluorite（萤石）的研究不仅限于其物理特性；它还在理解地质过程方面发挥着作用。地质学家常常将fluorite（萤石）作为指示矿物，帮助他们识别某些岩石形成的条件。通过分析fluorite（萤石）矿床的成分，科学家可以深入了解过去的环境条件，包括矿物形成期间的温度和压力。 总之，fluorite（萤石）不仅是一种美丽的矿物；它是一个重要的资源，具有众多应用和丰富的地质历史。无论你是收藏家、珠宝商还是科学家，理解fluorite（萤石）都为我们打开了一扇关于地球过程和我们周围自然美的知识之窗。随着我们继续探索和研究这种非凡的矿物，我们揭示了更多关于它在自然和工业中重要性的内容，巩固了它在矿物王国中的关键地位。