analcime

简明释义

[æˈnælsaɪm][æˈnælsaɪm]

n. [矿物] 方沸石

英英释义

Analcime is a mineral of the zeolite group, characterized by its crystalline structure and typically composed of sodium, aluminum, and silicon, often found in volcanic rocks.

分析石是一种沸石类矿物,具有晶体结构,通常由钠、铝和硅组成,常见于火山岩中。

单词用法

analcime mineral

分析石矿物

analcime group

分析石组

occurrence of analcime

分析石的出现

analcime crystals

分析石晶体

found in volcanic rocks

发现于火山岩中

associated with zeolites

与沸石相关

used in petrology

用于岩石学

characterized by its cubic crystals

以其立方晶体为特征

同义词

zeolite

沸石

Analcime is a type of zeolite commonly found in volcanic rocks.

Analcime是一种常见于火山岩中的沸石。

feldspathoid

长石类矿物

The mineral analcime can be classified as a feldspathoid due to its chemical composition.

由于其化学成分,矿物analcime可以被归类为长石类矿物。

反义词

zeolite

沸石

Zeolites are often used in water purification processes.

沸石常用于水净化过程。

feldspar

长石

Feldspar is a common mineral found in granite.

长石是花岗岩中常见的矿物。

例句

1.It was concluded that the product was hollow spheres co-constructed by analcime and sodalite characterized by XRD and SEM.

综合XRD和SEM的表征结果,所得产物为一种方沸石和方钠石共构的空心球。

2.It was concluded that the product was hollow spheres co-constructed by analcime and sodalite characterized by XRD and SEM.

综合XRD和SEM的表征结果,所得产物为一种方沸石和方钠石共构的空心球。

3.Researchers are investigating the thermal properties of analcime for industrial applications.

研究人员正在调查方沸石的热性能以用于工业应用。

4.Geologists often study analcime to understand volcanic rock formations.

地质学家常常研究方沸石以了解火山岩层。

5.In some regions, analcime is used as a natural zeolite in water purification.

在某些地区,方沸石被用作水净化中的天然沸石。

6.The mineral sample contained a significant amount of analcime.

该矿物样本含有大量的方沸石

7.The presence of analcime can indicate specific geological conditions.

出现方沸石可能表明特定的地质条件。

作文

In the realm of mineralogy, the study of various minerals provides insights into the Earth's composition and formation. Among these minerals, one that stands out due to its unique properties is analcime. This zeolite mineral, composed primarily of sodium and aluminum silicate, plays a significant role in both geological processes and industrial applications. Understanding analcime not only enhances our knowledge of mineralogy but also illustrates the interconnectedness of natural resources and human innovation.Analcime is often found in volcanic rocks and is characterized by its cubic crystal system. Its formation typically occurs in alkaline environments, where it crystallizes from the alteration of other minerals. The presence of analcime can indicate specific geological conditions, making it an important mineral for geologists studying volcanic activity and sedimentary processes. Moreover, its ability to absorb water and other substances makes it a valuable resource in various industries, including agriculture and environmental remediation.One of the fascinating aspects of analcime is its application in agriculture. Due to its high cation exchange capacity, this mineral can improve soil quality by enhancing nutrient retention and availability. Farmers and agricultural scientists have recognized the benefits of incorporating analcime into soil management practices, leading to increased crop yields and healthier ecosystems. This demonstrates how a better understanding of minerals can contribute to sustainable agricultural practices.In the field of environmental science, analcime has shown promise in the remediation of contaminated sites. Its porous structure allows it to adsorb heavy metals and other pollutants, making it an effective material for cleaning up hazardous waste. Researchers are exploring innovative ways to utilize analcime in filtration systems and as a natural absorbent in various environmental applications. This highlights the importance of mineral research in addressing contemporary environmental challenges.Furthermore, analcime is also utilized in the production of advanced materials. Its unique properties make it suitable for creating lightweight composites and as a filler in plastics. The demand for sustainable materials has led to increased interest in the use of naturally occurring minerals like analcime in manufacturing processes. This shift towards eco-friendly alternatives underscores the significance of minerals in modern technology and industry.In conclusion, analcime is more than just a mineral; it is a testament to the intricate relationship between the Earth’s natural resources and human innovation. Its diverse applications in agriculture, environmental remediation, and materials science exemplify the potential of minerals to address some of the pressing issues facing our world today. As we continue to explore and understand minerals like analcime, we pave the way for sustainable solutions that benefit both humanity and the planet. The study of such minerals not only enriches our scientific knowledge but also inspires us to find harmony between nature and technology.

在矿物学的领域中,研究各种矿物为我们提供了对地球组成和形成的洞察。在这些矿物中,由于其独特的性质,有一种矿物脱颖而出,那就是analcime。这种主要由钠和铝硅酸盐组成的沸石矿物,在地质过程和工业应用中发挥着重要作用。理解analcime不仅增强了我们对矿物学的认识,还展示了自然资源与人类创新之间的相互联系。Analcime通常存在于火山岩中,其特征是立方晶体系统。它的形成通常发生在碱性环境中,晶体从其他矿物的变化中结晶出来。Analcime的存在可以指示特定的地质条件,使其成为地质学家研究火山活动和沉积过程的重要矿物。此外,它吸水和其他物质的能力使其在农业和环境修复等多个行业中成为有价值的资源。Analcime的一个迷人之处在于它在农业中的应用。由于其高阳离子交换能力,这种矿物可以通过增强养分的保持和可用性来改善土壤质量。农民和农业科学家已经认识到将analcime纳入土壤管理实践的好处,从而导致作物产量增加和生态系统更健康。这表明对矿物的更好理解可以促进可持续农业实践。在环境科学领域,analcime在污染场地的修复中显示出希望。其多孔结构使其能够吸附重金属和其他污染物,使其成为清理危险废物的有效材料。研究人员正在探索利用analcime用于过滤系统和作为各种环境应用中的天然吸附剂的创新方法。这突显了矿物研究在应对当代环境挑战中的重要性。此外,analcime还用于生产先进材料。其独特的性质使其适合于制造轻质复合材料以及作为塑料中的填充剂。对可持续材料的需求导致了对像analcime这样的天然矿物在制造过程中的使用的兴趣增加。这种向环保替代品的转变强调了矿物在现代技术和工业中的重要性。总之,analcime不仅仅是一种矿物;它是地球自然资源与人类创新之间复杂关系的证明。它在农业、环境修复和材料科学中的多样化应用例证了矿物在解决当今世界一些紧迫问题中的潜力。随着我们继续探索和理解像analcime这样的矿物,我们为可持续解决方案的实现铺平了道路,这些方案既惠及人类又惠及地球。对这些矿物的研究不仅丰富了我们的科学知识,也激励我们找到自然与技术之间的和谐。