albite

简明释义

英[ˈælbaɪt]美[ˈælbaɪt;ˈælbɪt]

n. [矿物]钠长石

n. （Albite）人名；（西）阿尔维特

英英释义

单词用法

同义词

反义词

例句

1.The forming minerals of the granite mass rock are composed of quartz, albite, potassium feldspar and phlogopite in Pingwu.

研究表明：平武花岗岩体造岩矿物组合为石英、钠长石、钾长石和白云母；

2.Albite is a new mineral to Zhejiang province, which was just discovered recently.

钠长石是我省的一个新发现矿种。

3.There are quartz, sericite, muscovite, albite and carbonate in near-ore altered rocks.

近矿蚀变岩石中存在石英、绢云母、白云母、钠长石和碳酸盐。

4.Study prove that Shuimozi is albite.

经研究，水沫子为钠长石玉。

5.Mineral constituents consist mainly of jadeite, aegirine - augite, magnesio - riebeckite, winchite , magnesio - hornblende , actinolite , quartz, albite, rutile and sphene.

主要组成矿物为硬玉、霓辉石、 镁纳闪石、蓝透闪石、镁角闪石、阳起石、石英、钠长石、金红石和榍石。

6.The associated quartz and albite are also commonly identified as thermal-water minerals.

伴生的石英和钠长石亦为常见的热水矿物。

7.The late ductile shearing(DF_2) formed in D_3 deformation phase is accompanied by the appearance of chlorite and barroisite etc. and dynamic recrystallization of albite, quartz and calcite.

晚期韧性剪切变形与区域D_3变形幕有关，伴随有绿泥石、冻蓝闪石等的出现和石英、方解石的动态重结晶作用。

8.Perthite is orthoclase or microcline and albite over the product, which is more than orthoclase or microcline albite.

条纹长石是正长石或微斜长石与钠长石交生的产物，其中正长石或微斜长石多于钠长石。

9.Mineral constituents consist mainly of jadeite, aegirine - augite, magnesio - riebeckite, winchite, magnesio - hornblende, actinolite, quartz, albite, rutile and sphene.

主要组成矿物为硬玉、霓辉石、镁纳闪石、蓝透闪石、镁角闪石、阳起石、石英、钠长石、金红石和榍石。

10.The mineral sample contains a significant amount of albite (铝长石), which is essential for understanding its geological history.

这个矿物样本含有大量的铝长石（albite），这对于理解其地质历史至关重要。

11.The presence of albite (铝长石) in granite indicates a specific crystallization temperature.

花岗岩中存在铝长石（albite）表明特定的结晶温度。

12.In petrology, albite (铝长石) is classified as a plagioclase feldspar.

在岩石学中，铝长石（albite）被归类为斜长石。

13.During the mineral analysis, we found that albite (铝长石) was the dominant feldspar present.

在矿物分析中，我们发现铝长石（albite）是主要的长石矿物。

14.Geologists often use albite (铝长石) to identify the conditions under which the rock was formed.

地质学家常常使用铝长石（albite）来识别岩石形成的条件。

作文

In the world of geology and mineralogy, various minerals play crucial roles in understanding the Earth's composition and history. One such mineral is albite, which is a member of the plagioclase feldspar group. Albite is primarily composed of sodium aluminum silicate and is known for its distinctive white to gray color. This mineral is not only significant for its physical properties but also for its implications in geological processes. The formation of albite typically occurs in igneous rocks, particularly in granite and syenite. Its presence can give insights into the cooling history of these rocks, as albite crystallizes at relatively low temperatures compared to other feldspars. Understanding the conditions under which albite forms helps geologists reconstruct past environments and the evolution of the Earth’s crust.Moreover, albite can be an indicator of specific geological processes. For instance, its occurrence alongside other minerals can suggest the conditions of metamorphism or the nature of the original magma from which the rock was formed. In this way, albite serves as a geological marker that helps scientists piece together the history of an area.In addition to its geological significance, albite has practical applications. It is used in the production of glass and ceramics, where its properties contribute to the desired characteristics of the final product. The presence of albite in ceramic glazes can enhance their durability and aesthetic appeal. Thus, the utility of albite extends beyond academic interest into everyday applications.On a more personal note, my fascination with minerals began during a field trip to a local quarry. While exploring the site, I stumbled upon a beautiful specimen of albite. Its shimmering surface and subtle hues captivated me, igniting a desire to learn more about the various minerals that make up our planet. I remember asking our guide about albite and being amazed by its role in the Earth's geological narrative.This experience taught me that every mineral, including albite, tells a story about the Earth's past. Each crystal structure, each color variation, holds clues to ancient volcanic eruptions, shifts in tectonic plates, and even the formation of continents. As I continued my studies, I realized that minerals are not just rocks; they are the building blocks of our understanding of the Earth.In conclusion, albite is much more than just a mineral found in rocks. It represents a key to unlocking the mysteries of geological history and serves practical purposes in modern industry. Whether through academic study or personal exploration, understanding albite enhances our appreciation for the complex processes that shape our planet. As we continue to study these minerals, we gain deeper insights into the Earth's past and present, reminding us of the intricate connections between geology and our everyday lives.

在地质学和矿物学的世界中，各种矿物在理解地球的组成和历史方面发挥着至关重要的作用。其中一个矿物就是铝长石，它是斜长石族的一员。铝长石主要由钠铝硅酸盐组成，以其独特的白色到灰色而闻名。这个矿物不仅因其物理特性而重要，还因其对地质过程的影响而重要。铝长石的形成通常发生在火成岩中，特别是在花岗岩和辉长岩中。它的存在可以为这些岩石的冷却历史提供见解，因为铝长石在相对较低的温度下结晶。理解铝长石形成的条件有助于地质学家重建过去的环境以及地壳的演变。此外，铝长石可以作为特定地质过程的指示剂。例如，它与其他矿物的共存可以暗示变质的条件或形成岩石的原始岩浆的性质。通过这种方式，铝长石作为一种地质标记，帮助科学家拼凑一个地区的历史。除了其地质意义外，铝长石还有实际应用。它被用于玻璃和陶瓷的生产，其中它的特性有助于最终产品的所需特性。铝长石在陶瓷釉料中的存在可以增强其耐用性和美观性。因此，铝长石的实用性超越了学术兴趣，延伸到日常应用中。在更个人的层面上，我对矿物的迷恋始于一次去当地采石场的实地考察。在探索现场时，我偶然发现了一块美丽的铝长石标本。它闪闪发光的表面和微妙的色调吸引了我，点燃了我想要了解更多关于构成我们星球的各种矿物的愿望。我记得问我们的向导关于铝长石的问题，并对它在地球地质叙事中的作用感到惊讶。这个经历让我明白，每一种矿物，包括铝长石，都讲述着地球过去的故事。每一种晶体结构、每一种颜色变化，都蕴含着古代火山喷发、构造板块的移动，甚至是大陆的形成的线索。随着我继续学习，我意识到矿物不仅仅是岩石；它们是我们理解地球的基石。总之，铝长石远不止是岩石中发现的一种矿物。它代表着解锁地质历史之谜的关键，并在现代工业中发挥着实际作用。无论是通过学术研究还是个人探索，理解铝长石都增强了我们对塑造我们星球的复杂过程的欣赏。随着我们继续研究这些矿物，我们对地球的过去和现在有了更深入的了解，提醒我们地质学与我们日常生活之间的复杂联系。