baddeleyite

简明释义

英[ˈbæd.əˌlaɪt]美[ˈbæd.əˌlaɪt]

n. [矿物] 斜锆石（二氧化锆矿）

英英释义

单词用法

同义词

反义词

例句

1.A lustrous gray strong metallic element resembling titanium; it is used in nuclear reactors as a neutron absorber; it occurs in baddeleyite but is obtained chiefly from zircon.

一种有光泽、灰白色、坚固的金属元素，类似钛，在核反应堆中用作中子吸收剂，见于斜锆石中。

2.A lustrous gray strong metallic element resembling titanium; it is used in nuclear reactors as a neutron absorber; it occurs in baddeleyite but is obtained chiefly from zircon.

一种有光泽、灰白色、坚固的金属元素，类似钛，在核反应堆中用作中子吸收剂，见于斜锆石中。

3.Porous ceramic materials on the base of strontium zirconate were developed with zirconium dioxide, baddeleyite powder, and granular polystyrol.

以锆酸锶为基体，采用二氧化锆、巴德雷石粉和粒状聚苯乙烯为原料，制备了多孔陶瓷材料。

4.The geologist discovered a sample of baddeleyite in the volcanic rock, which is known for its unique properties.

地质学家在火山岩中发现了一份baddeleyite样本，这种矿物以其独特的性质而闻名。

5.In mineralogy classes, students often learn about the characteristics of baddeleyite and its uses.

在矿物学课堂上，学生们经常学习baddeleyite的特征及其用途。

6.During the field trip, we collected samples of baddeleyite from different locations.

在实地考察中，我们从不同地点收集了baddeleyite样本。

7.The presence of baddeleyite can indicate the geological history of an area.

存在baddeleyite可能表明一个地区的地质历史。

8.Researchers are studying baddeleyite to understand its formation and stability under high pressure.

研究人员正在研究baddeleyite，以了解其在高压下的形成和稳定性。

作文

In the fascinating world of geology and mineralogy, various minerals play crucial roles in understanding the Earth's composition and history. One such intriguing mineral is baddeleyite, a zirconium oxide mineral that has garnered attention due to its unique properties and formation processes. Found primarily in igneous rocks, baddeleyite is often associated with the presence of zircon, another important mineral known for its durability and resistance to weathering. The study of baddeleyite not only provides insight into the geological conditions under which it forms but also contributes to our understanding of the broader context of mineral formation and the evolution of the Earth's crust.Baddeleyite is characterized by its dark brown to black color and its vitreous luster, making it visually distinct from other minerals. It typically forms in high-temperature environments, such as those found in alkaline magmas. This mineral is particularly significant in the field of geochronology, where it is used to date volcanic rocks and provide information about the age of geological formations. The presence of baddeleyite can indicate specific tectonic settings and volcanic activity, thereby helping geologists reconstruct the geological history of a region.One of the remarkable aspects of baddeleyite is its ability to withstand extreme conditions. Unlike many other minerals, it does not easily break down or alter when exposed to weathering processes. This stability makes baddeleyite an invaluable resource for scientists studying the Earth's past. By analyzing samples of this mineral, researchers can gain insights into the temperature and pressure conditions prevalent during its formation, which aids in reconstructing the thermal history of the Earth's crust.Moreover, baddeleyite has practical applications beyond academic research. Its unique properties make it suitable for use in various industrial applications, including ceramics and refractory materials. The high melting point and chemical stability of baddeleyite allow it to be utilized in high-performance environments, such as in the production of heat-resistant materials. As industries continue to seek innovative solutions for extreme conditions, the demand for minerals like baddeleyite is likely to grow, highlighting the importance of ongoing research in this area.In conclusion, baddeleyite is more than just a mineral; it is a key player in understanding the Earth’s geological processes and history. Its unique characteristics and resilience to environmental changes make it a subject of interest for both scientists and industry professionals. As we continue to explore the depths of our planet, minerals like baddeleyite will undoubtedly play a pivotal role in unraveling the mysteries of the Earth's past and informing future advancements in technology and material science.

巴德利石在地质学和矿物学的迷人世界中，各种矿物在了解地球的组成和历史方面发挥着至关重要的作用。巴德利石是一种锆石氧化物矿物，由于其独特的性质和形成过程而引起了关注。它主要存在于火成岩中，通常与锆石这种重要矿物相关，后者因其耐久性和抗风化能力而闻名。对巴德利石的研究不仅提供了有关其形成所需地质条件的见解，还帮助我们理解矿物形成的更广泛背景以及地壳的演变。巴德利石的特点是其深棕色至黑色的颜色和玻璃光泽，使其在视觉上与其他矿物明显不同。它通常在高温环境中形成，例如碱性岩浆中。这种矿物在地质年代学领域特别重要，因为它用于对火山岩进行定年，并提供有关地质形成年龄的信息。巴德利石的存在可以指示特定的构造环境和火山活动，从而帮助地质学家重建一个地区的地质历史。巴德利石的一个显著方面是其能够承受极端条件的能力。与许多其他矿物不同，巴德利石在暴露于风化过程中时不会轻易分解或改变。这种稳定性使得巴德利石成为科学家研究地球过去的重要资源。通过分析这种矿物的样本，研究人员可以深入了解其形成期间的温度和压力条件，这有助于重建地壳的热历史。此外，巴德利石在学术研究之外还有实际应用。其独特的性质使其适合用于各种工业应用，包括陶瓷和耐火材料。巴德利石的高熔点和化学稳定性使其能够在高性能环境中使用，例如在生产耐热材料中。随着各行业继续寻求应对极端条件的创新解决方案，对像巴德利石这样的矿物的需求可能会增加，这突显了该领域持续研究的重要性。总之，巴德利石不仅仅是一种矿物；它是理解地球地质过程和历史的关键角色。其独特的特征和对环境变化的抵御能力使其成为科学家和工业专业人士感兴趣的主题。随着我们继续探索地球的深处，像巴德利石这样的矿物无疑将在揭开地球过去的奥秘和推动技术与材料科学的未来进步中发挥关键作用。