manganite

简明释义

英[ˈmæŋɡəˌnaɪt]美[ˈmæŋɡəˌnaɪt]

n. [矿物] 水锰矿；亚锰酸盐

英英释义

单词用法

同义词

反义词

例句

1.As we know, the studies of perovskite manganite oxides have attracted much renewed attention in strongly correlated electron system since the discovery of colossal magnetoresistance (CMR) effect.

正如我们所知道的，自从在钙钛矿锰氧化物中发现巨磁电阻效应以来，有关它的研究已经成为当前强关联电子体系的一个研究热点。

2.As we know, the studies of perovskite manganite oxides have attracted much renewed attention in strongly correlated electron system since the discovery of colossal magnetoresistance (CMR) effect.

正如我们所知道的，自从在钙钛矿锰氧化物中发现巨磁电阻效应以来，有关它的研究已经成为当前强关联电子体系的一个研究热点。

3.By contrast, the process for goethite and manganite were exothermic.

硼在针铁矿、水锰矿上的吸附为放热过程 ，解吸为吸热过程。

4.Geologists use manganite to study the geological history of an area.

地质学家使用锰矿来研究一个地区的地质历史。

5.Researchers are exploring the potential uses of manganite in battery technology.

研究人员正在探索锰矿在电池技术中的潜在用途。

6.The mineral known as manganite is often found in metamorphic rocks.

被称为锰矿的矿物常见于变质岩中。

7.The shiny black appearance of manganite makes it a popular choice for collectors.

由于其光亮的黑色外观，锰矿成为收藏家的热门选择。

8.In some regions, manganite is mined for its manganese content.

在某些地区，锰矿因其锰含量而被开采。

作文

Manganite is a mineral that is primarily composed of manganese oxide, with the chemical formula MnO(OH). This mineral is typically found in metamorphic rocks and is known for its distinctive black to dark brown color. Its crystalline structure often forms in a rhombohedral shape, which can be quite striking when viewed under a microscope. The presence of manganite (锰矿) in geological formations can indicate the conditions under which these rocks were formed. Geologists often study manganite (锰矿) to gain insights into the history of the Earth's crust and the processes that have shaped it over millions of years.The significance of manganite (锰矿) extends beyond geology; it also has important applications in various industries. Manganese, the primary element in manganite (锰矿), is an essential component in steel production. It enhances the strength and durability of steel, making it a crucial material in construction and manufacturing. Without the contributions of manganite (锰矿), modern infrastructure would not be as robust as it is today.In addition to its industrial uses, manganite (锰矿) can also be found in various natural environments. It often occurs alongside other minerals, such as pyrolusite and hausmannite, creating diverse mineral assemblages. These associations can provide valuable information about the geological history of an area. For example, the presence of manganite (锰矿) in sedimentary deposits can indicate past environmental conditions, such as the availability of manganese-rich waters during periods of deposition.The study of manganite (锰矿) is not limited to geology and industry; it also has implications for environmental science. Manganese is a vital nutrient for many organisms, but excessive concentrations can lead to toxicity. Understanding the distribution and behavior of manganite (锰矿) in ecosystems helps scientists assess the health of aquatic environments and the potential impacts of mining activities.Moreover, manganite (锰矿) is sometimes used in the field of art. Artists and artisans have utilized the rich colors of manganite (锰矿) in pigments, creating stunning works that capture the beauty of this mineral. The unique properties of manganite (锰矿) make it a fascinating subject for both scientific inquiry and artistic expression.In conclusion, manganite (锰矿) is more than just a mineral; it is a key player in various fields, from geology and industry to environmental science and art. Its multifaceted nature highlights the interconnectedness of the natural world and the importance of understanding the materials that shape our lives. As we continue to explore the properties and applications of manganite (锰矿), we gain a deeper appreciation for the complexity of the Earth and the resources it provides.

锰矿是一种主要由氧化锰组成的矿物，其化学式为MnO(OH)。这种矿物通常在变质岩中发现，以其独特的黑色至深棕色而闻名。其晶体结构通常呈现菱方形状，在显微镜下观察时非常引人注目。锰矿的存在可以指示这些岩石形成的条件。地质学家常常研究锰矿，以深入了解地壳的历史及其数百万年来塑造过程的变化。锰矿的重要性不仅限于地质学；它在各个行业中也有重要的应用。锰是锰矿中的主要元素，是钢铁生产的一个重要组成部分。它增强了钢的强度和耐用性，使其成为建筑和制造业的关键材料。如果没有锰矿的贡献，现代基础设施将不会如此坚固。除了工业用途，锰矿还可以在各种自然环境中找到。它通常与其他矿物如锰矿石和豪斯曼矿共生，形成多样的矿物组合。这些组合可以提供有关区域地质历史的宝贵信息。例如，锰矿在沉积物中的存在可以指示沉积期间锰丰富水体的可用性。锰矿的研究不限于地质学和工业；它还对环境科学有影响。锰是许多生物所需的重要营养素，但过量浓度可能导致毒性。理解锰矿在生态系统中的分布和行为有助于科学家评估水域环境的健康状况以及采矿活动的潜在影响。此外，锰矿有时也用于艺术领域。艺术家和工匠利用锰矿丰富的颜色作为颜料，创造出捕捉这种矿物美丽的惊人作品。锰矿独特的性质使其成为科学探究和艺术表达的迷人主题。总之，锰矿不仅仅是一种矿物；它是多个领域的关键参与者，从地质学和工业到环境科学和艺术。它多面的特性突显了自然界的相互联系以及理解塑造我们生活的材料的重要性。随着我们继续探索锰矿的特性和应用，我们对地球的复杂性和它提供的资源有了更深刻的认识。