microlite

简明释义

英[ˈmaɪkrəʊˌlaɪt]美[ˈmaɪkroʊˌlaɪt]

n. [晶体] 微晶；[矿物] 细晶石

英英释义

单词用法

同义词

反义词

例句

1.Objective To investigate Arca Subcrenata Lischke microlite artificial bone and its effects on bone defects, bone regeneration, and repair in vitro.

目的用毛蚶壳微晶人工骨引导新骨生成修复骨缺损。

2.With a strong technical research and develop team, our company has developed four generations of microlite product during five years and is recognized by the end market.

我公司拥有技术力量雄厚的研发队伍，历经五年，共开发了四代微晶石产品，并得到了终端市场的肯定。

3.With a strong technical research and develop team, our company has developed four generations of microlite product during five years and is recognized by the end market.

我公司拥有技术力量雄厚的研发队伍，历经五年，共开发了四代微晶石产品，并得到了终端市场的肯定。

4.Through precipitate circulation and aging, the yellowcake slurry in amorphous or microlite form was transformed to crystal precipitate.

采用浆体循环与陈化沉淀的方法，使沉淀的铀浓缩物由无定形凝胶体或微晶转化成易沉降过滤的粗晶体。

5.The development process of the devitrification is featured by a gradual increasing trend from crystallite to skeletal crystal (microlite) and finally to spherulitic.

它们发育过程由雏晶-骸晶（微晶）-球粒逐渐增强。

6.The presence of microlite can help determine the temperature of the magma during crystallization.

存在微晶矿可以帮助确定结晶过程中岩浆的温度。

7.Researchers are studying the properties of microlite to understand its formation process.

研究人员正在研究微晶矿的性质，以了解其形成过程。

8.In the lab, we analyzed the microlite for its chemical composition.

在实验室中，我们分析了微晶矿的化学成分。

9.The geologist found a small piece of microlite in the rock sample, indicating volcanic activity.

地质学家在岩石样本中发现了一小块微晶矿，这表明火山活动。

10.During our field trip, we collected samples that contained microlite crystals.

在我们的实地考察中，我们收集了含有微晶矿晶体的样本。

作文

In the realm of geology and mineralogy, the term microlite refers to a small, often microscopic crystal that can be found in various types of rocks. These tiny crystals play a significant role in understanding the formation and evolution of geological materials. The study of microlite is essential for geologists as it provides insights into the conditions under which certain rocks were formed. For instance, the presence of specific microlite minerals can indicate the temperature and pressure conditions during the rock's formation, allowing scientists to reconstruct the geological history of an area.The significance of microlite extends beyond academic research; it also has practical applications in various industries. For example, in the field of electronics, microlite can refer to the small crystalline structures used in semiconductors. These tiny components are crucial for the functionality of modern electronic devices, from smartphones to computers. Understanding the properties and behaviors of microlite in this context can lead to advancements in technology and improvements in device performance.Furthermore, microlite can also be found in the study of gemstones. Some precious stones contain microlite inclusions that not only affect their appearance but also their value. Gemologists examine these tiny crystals to determine the authenticity and quality of gemstones. The presence of certain microlite inclusions can enhance a gemstone's beauty or, conversely, detract from it, influencing its market price.In addition to their scientific and commercial importance, microlite also serves as a reminder of the intricate processes that shape our planet. Each microlite tells a story of its formation, reflecting the environmental conditions and geological events that occurred over millions of years. By studying these tiny crystals, we gain a deeper appreciation for the complexity of Earth's geology and the forces that have shaped it.Moreover, the exploration of microlite can inspire future generations to pursue careers in science and engineering. As students learn about the fascinating world of minerals and crystals, they may find themselves drawn to fields such as geology, material science, or environmental science. This interest can lead to innovative research and discoveries that benefit society as a whole.In conclusion, microlite is more than just a small crystal; it is a key component in the study of geology, technology, and gemology. Its significance spans both scientific inquiry and practical application, making it an essential subject for those interested in understanding the natural world. As we continue to explore the mysteries of microlite, we unlock new knowledge that can lead to advancements in various fields, ultimately enhancing our understanding of the Earth and improving our technological capabilities.

在地质学和矿物学领域，术语microlite指的是一种小型的、通常是微观的晶体，可以在各种类型的岩石中找到。这些微小的晶体在理解地质材料的形成和演变方面起着重要作用。microlite的研究对于地质学家来说至关重要，因为它提供了关于某些岩石形成条件的洞察。例如，特定microlite矿物的存在可以指示岩石形成时的温度和压力条件，从而使科学家能够重建一个地区的地质历史。microlite的重要性不仅限于学术研究；它在各个行业也具有实际应用。例如，在电子领域，microlite可以指用于半导体的小晶体结构。这些微小的组件对现代电子设备的功能至关重要，从智能手机到计算机。了解microlite在此背景下的属性和行为可以推动技术进步并改善设备性能。此外，microlite还可以在宝石研究中找到。一些珍贵宝石包含microlite内含物，这不仅影响它们的外观，还影响它们的价值。宝石学家检查这些微小的晶体，以确定宝石的真实性和质量。某些microlite内含物的存在可以增强宝石的美感，或者相反，降低其价值，从而影响其市场价格。除了科学和商业的重要性，microlite还提醒我们塑造我们星球的复杂过程。每一个microlite都讲述了它的形成故事，反映了数百万年来发生的环境条件和地质事件。通过研究这些微小的晶体，我们更深入地欣赏地球地质的复杂性及其塑造力量。此外，探索microlite可以激励未来一代人追求科学和工程领域的职业。当学生学习关于矿物和晶体的迷人世界时，他们可能会发现自己被吸引到地质学、材料科学或环境科学等领域。这种兴趣可能导致创新的研究和发现，造福整个社会。总之，microlite不仅仅是一个小晶体；它是地质学、技术和宝石学研究中的关键组成部分。它的重要性跨越科学探究和实际应用，使其成为那些对理解自然世界感兴趣的人必不可少的主题。随着我们继续探索microlite的奥秘，我们解锁的新知识可以推动各个领域的进步，最终增强我们对地球的理解并改善我们的技术能力。