troilite

简明释义

[ˈtrəʊɪˌlaɪt][ˈtrɔɪlaɪt]

n. [矿物] 陨硫铁

英英释义

Troilite is a mineral form of iron sulfide (FeS) that is commonly found in meteorites and is characterized by its metallic luster and dark color.

Troilite是一种铁硫化物(FeS)的矿物形式,通常在陨石中发现,具有金属光泽和深色特征。

单词用法

troilite mineral

troilite 矿物

troilite in meteorites

陨石中的 troilite

iron sulfide troilite

铁硫化物 troilite

occurrence of troilite

troilite 的出现

同义词

iron sulfide

硫化铁

Troilite is often found in meteorites and is a significant component of their composition.

硫化铁常见于陨石中,是其成分的重要组成部分。

FeS

铁的硫化物

Iron sulfide can form under anaerobic conditions and is a common mineral in sedimentary environments.

硫化铁可以在缺氧条件下形成,是沉积环境中的常见矿物。

反义词

silicate

硅酸盐

Silicates are the most abundant minerals in the Earth's crust.

硅酸盐是地壳中最丰富的矿物。

oxide

氧化物

Oxides can form through the reaction of metals with oxygen.

氧化物可以通过金属与氧气反应形成。

例句

1.The Lujiang meteorite, a chondrite whose petrochemical type is LL6, contains the following opaque minerals: kamacite, taenite, disordered taenite, troilite, chromite, hematite, ilmenite. etc.

庐江陨石是一化学岩石类型为LL6的球粒石陨石。研究表明该陨石中不透明矿物有铁纹石、镍纹石、陨硫铁、铬铁矿、钛铁矿和赤铁矿等。

2.The sulfide (especially troilite) contained in coal seams is representative a kind of strong reducing environment.

煤层中含有硫化物(特别是硫铁矿),代表一种强的还原环境。

3.The Lujiang meteorite, a chondrite whose petrochemical type is LL6, contains the following opaque minerals: kamacite, taenite, disordered taenite, troilite, chromite, hematite, ilmenite. etc.

庐江陨石是一化学岩石类型为LL6的球粒石陨石。研究表明该陨石中不透明矿物有铁纹石、镍纹石、陨硫铁、铬铁矿、钛铁矿和赤铁矿等。

4.Hornfels, skarnization, troilite and gold mineralization were formed in their contact segment.

接触部位形成角岩、矽卡岩化,并发生磁铁矿、硫铁矿及金矿化。

5.The presence of troilite in lunar samples suggests volcanic activity.

在月球样本中发现troilite表明存在火山活动。

6.In the lab, we isolated troilite from the sample for further analysis.

在实验室中,我们从样本中分离出troilite以进行进一步分析。

7.Geologists often find troilite in iron meteorites due to its association with metallic iron.

地质学家通常在铁陨石中发现troilite,因为它与金属铁相关联。

8.Scientists are studying troilite to understand its role in planetary formation.

科学家正在研究troilite以了解其在行星形成中的作用。

9.The meteorite contained a significant amount of troilite, which is a sulfur-rich mineral.

这块陨石含有大量的troilite,这是一种富含硫的矿物。

作文

In the realm of planetary science and geology, few minerals capture the imagination quite like troilite. This iron sulfide mineral, often found in meteorites, serves as a window into the processes that shape celestial bodies. Understanding troilite not only enhances our knowledge of the universe but also provides insights into the origins of our own planet. Troilite is primarily composed of iron and sulfur, and its formation can occur under high-pressure conditions typical of planetary interiors. The presence of troilite in meteorites indicates that these extraterrestrial objects have undergone significant thermal and chemical processes, which can reveal the history of their parent bodies. For instance, studies of troilite can inform scientists about the conditions present during the formation of the solar system, including temperature fluctuations and the availability of sulfur. Furthermore, troilite has been identified in various types of meteorites, such as chondrites and achondrites, each offering different clues about their origins. Chondrites, for example, are among the oldest materials in the solar system, and the troilite found within them can provide a timeline of the early solar system's evolution. The significance of troilite extends beyond mere academic interest; it plays a crucial role in understanding the potential for life beyond Earth. The conditions that lead to the formation of troilite may also be conducive to the emergence of organic compounds, which are essential for life as we know it. By studying troilite and its associated minerals, researchers can better assess the habitability of other celestial bodies, such as Mars or the icy moons of Jupiter and Saturn. In addition to its scientific importance, troilite also captivates collectors and enthusiasts. Its unique properties and associations with space exploration make it a sought-after specimen for those interested in geology and astronomy. Collecting troilite can be an exciting endeavor, as it connects individuals to the vastness of space and the mysteries it holds. In conclusion, troilite is more than just a mineral; it is a key to unlocking the secrets of our universe. From its role in meteorites to its implications for the origins of life, troilite offers a fascinating glimpse into the past and future of planetary science. As we continue to explore the cosmos, the study of troilite will undoubtedly play a vital role in expanding our understanding of the universe and our place within it.

在行星科学和地质学的领域中,几种矿物像troilite一样引人入胜。这种铁硫化物矿物常见于陨石中,是了解塑造天体过程的窗口。理解troilite不仅增强了我们对宇宙的知识,还提供了关于我们自己星球起源的见解。Troilite主要由铁和硫组成,其形成可以发生在典型的行星内部的高压条件下。Troilite在陨石中的存在表明,这些外星物体经历了显著的热和化学过程,这可以揭示其母体的历史。例如,troilite的研究可以告知科学家关于太阳系形成期间的条件,包括温度波动和硫的可用性。此外,troilite已在多种类型的陨石中被识别,如球粒陨石和非球粒陨石,每种陨石都提供了关于其起源的不同线索。例如,球粒陨石是太阳系中最古老的材料之一,内部发现的troilite可以提供关于早期太阳系演变的时间线。Troilite的重要性超越了单纯的学术兴趣;它在理解地球以外生命潜力方面也发挥着关键作用。导致troilite形成的条件可能也有利于有机化合物的出现,而有机化合物是我们所知生命的基本要素。通过研究troilite及其相关矿物,研究人员可以更好地评估其他天体的宜居性,例如火星或木星和土星的冰冷卫星。除了科学重要性,troilite还吸引了收藏家和爱好者。它独特的属性和与太空探索的关联使其成为对地质学和天文学感兴趣的人士追求的标本。收集troilite可以是一项令人兴奋的事业,因为它将个人与空间的广阔和其中蕴藏的神秘联系起来。总之,troilite不仅仅是一种矿物;它是解锁我们宇宙秘密的关键。从它在陨石中的作用到它对生命起源的影响,troilite为我们提供了对行星科学的过去和未来的迷人洞察。随着我们继续探索宇宙,troilite的研究无疑将在扩展我们对宇宙及我们在其中位置的理解方面发挥重要作用。