aegirite

简明释义

英[ˈiːdʒɪˌraɪt]美[ˈeɪɡəraɪt;ˈɪdʒəˌraɪt]

n. [矿物] 霓石

英英释义

单词用法

同义词

反义词

例句

1.The selective depression of ammonium fluorosilicate on aegirite, an iron-containing silicate gangue mineral, in hematite flotation using sodium oleate collector was investigated.

研究了以油酸钠为捕收剂浮选赤铁矿时，氟硅酸铵对含铁硅酸盐脉石矿物霓石的选择性抑制作用。

2.The selective depression of ammonium fluorosilicate on aegirite, an iron-containing silicate gangue mineral, in hematite flotation using sodium oleate collector was investigated.

研究了以油酸钠为捕收剂浮选赤铁矿时，氟硅酸铵对含铁硅酸盐脉石矿物霓石的选择性抑制作用。

3.In some regions, aegirite is associated with other rare minerals.

在某些地区，电气石与其他稀有矿物相关联。

4.Samples of aegirite were collected from the mine for further analysis.

从矿山收集了电气石样本以进行进一步分析。

5.Geologists study aegirite to understand the conditions of its formation.

地质学家研究电气石以了解其形成的条件。

6.The unique color of aegirite makes it a sought-after specimen for collectors.

独特的电气石颜色使其成为收藏家的热门标本。

7.The mineral known as aegirite is often found in granite pegmatites.

被称为电气石的矿物通常在花岗岩伟晶岩中发现。

作文

The world of minerals is vast and intricate, filled with a variety of fascinating compounds that tell the story of our planet's geological history. Among these minerals, one may encounter a unique specimen known as aegirite, which is a sodium iron silicate mineral. Found in igneous rocks, aegirite is characterized by its dark color, often appearing black or very dark green. The presence of iron gives it a distinctive hue, while its sodium content contributes to its overall composition. Understanding aegirite not only enhances our knowledge of mineralogy but also provides insights into the processes that shape the Earth's crust.Aegirite was first discovered in the early 19th century, and since then, it has intrigued geologists and mineralogists alike. This mineral is typically formed from the alteration of other minerals under specific conditions, such as high temperatures and pressures found in volcanic environments. The study of aegirite can reveal much about the conditions under which it formed, including the chemical environment and the presence of other minerals. For instance, aegirite often occurs alongside minerals such as quartz and feldspar, which can provide clues about the geological history of the area where it is found.One of the most interesting aspects of aegirite is its role in the formation of certain types of rocks. In particular, it is commonly associated with syenitic rocks, which are rich in alkali feldspar. These rocks are less common than granite but provide important information about the evolution of the Earth's crust. The presence of aegirite in these rocks indicates a specific set of conditions during their formation, which can help geologists understand the tectonic processes at play in a given region.In addition to its geological significance, aegirite also has economic importance. While it is not as widely sought after as other minerals, it can be a source of valuable elements such as iron and sodium. As industries continue to seek sustainable sources of materials, understanding the properties and potential uses of minerals like aegirite becomes increasingly relevant. Moreover, the study of aegirite can contribute to the field of environmental geology, as it helps scientists assess the impact of mining activities on local ecosystems.For hobbyists and collectors, aegirite can be a prized addition to a mineral collection. Its unique appearance and rarity make it an attractive specimen for display. Collectors often appreciate the story behind each mineral, and aegirite is no exception. The journey of this mineral from its formation deep within the Earth to its eventual discovery and appreciation by humans is a testament to the dynamic processes that govern our planet.In conclusion, aegirite is more than just a mineral; it is a window into the geological processes that shape our world. By studying aegirite, we gain a deeper understanding of the Earth's crust, the conditions that lead to the formation of various rocks, and the economic potential of these natural resources. Whether one is a professional geologist or a casual collector, the allure of aegirite lies in its complexity and the stories it holds within its crystalline structure. As we continue to explore the mysteries of our planet, minerals like aegirite will undoubtedly play a crucial role in our understanding of Earth's history and future.

矿物的世界是广阔而复杂的，充满了各种迷人的化合物，这些化合物讲述着我们星球地质历史的故事。在这些矿物中，我们可能会遇到一种独特的标本，称为aegirite，它是一种钠铁硅酸盐矿物。aegirite通常出现在火成岩中，其特征是颜色较深，常呈黑色或非常深绿色。铁的存在赋予它独特的色调，而钠的含量则有助于其整体成分的形成。理解aegirite不仅增强了我们对矿物学的了解，还提供了关于塑造地壳过程的见解。Aegirite首次被发现于19世纪初，自那时以来，它吸引了地质学家和矿物学家的注意。这种矿物通常是在特定条件下，由其他矿物的变化形成的，例如在火山环境中发现的高温和高压。对aegirite的研究可以揭示其形成过程中的许多信息，包括化学环境及其他矿物的存在。例如，aegirite常与石英和长石等矿物共生，这可以提供关于其发现地区地质历史的线索。Aegirite最有趣的方面之一是它在某些类型岩石形成中的作用。特别是，它通常与丰富钾长石的辉长岩相关联。这些岩石不如花岗岩常见，但提供了关于地壳演化的重要信息。Aegirite在这些岩石中的存在指示了其形成过程中一系列特定的条件，这可以帮助地质学家理解特定区域的构造过程。除了地质意义外，aegirite还具有经济重要性。尽管它不如其他矿物广泛受到追捧，但它可以成为铁和钠等有价值元素的来源。随着工业不断寻求可持续材料来源，理解像aegirite这样的矿物的性质和潜在用途变得越来越重要。此外，对aegirite的研究可以促进环境地质学领域，因为它帮助科学家评估采矿活动对当地生态系统的影响。对于爱好者和收藏家来说，aegirite可以成为矿物收藏中珍贵的补充。其独特的外观和稀有性使其成为展示的吸引标本。收藏家通常欣赏每种矿物背后的故事，而aegirite也不例外。这种矿物从地球深处的形成到最终被人类发现和欣赏的旅程，是对我们星球动态过程的证明。总之，aegirite不仅仅是一种矿物；它是通往塑造我们世界的地质过程的窗口。通过研究aegirite，我们可以更深入地理解地壳、各种岩石形成的条件以及这些自然资源的经济潜力。不论是专业的地质学家还是普通的收藏家，aegirite的魅力在于其复杂性和其晶体结构中蕴藏的故事。随着我们继续探索地球的奥秘，像aegirite这样的矿物无疑将在我们理解地球的历史和未来中发挥至关重要的作用。