gehlenite

简明释义

英[ˈɡeɪləˌnaɪt]美[ˈɡeɪhlɪnaɪt]

n. [矿物] 钙铝黄长石；铝方柱石

英英释义

单词用法

同义词

反义词

例句

1.Gehlenite is the major constituent in the gasification residue of raw char.

原煤焦气化残渣中主要含钙铝黄长石。

2.Gehlenite is the major constituent in the gasification residue of raw char.

原煤焦气化残渣中主要含钙铝黄长石。

3.The main hydrates are ettringite and gehlenite hydrate.

主要的水化产物是钙矾石和水化钙黄长石。

4.Researchers found that the presence of gehlenite (格伦石) in the glass matrix improved its mechanical strength.

研究人员发现，玻璃基体中存在gehlenite（格伦石）可以提高其机械强度。

5.In ceramics, gehlenite (格伦石) is often used to enhance the thermal stability of the final product.

在陶瓷中，gehlenite（格伦石）常用于提高最终产品的热稳定性。

6.The geological survey revealed a new deposit of gehlenite (格伦石) in the region, which could be commercially viable.

地质调查显示该地区发现了一处新的gehlenite（格伦石）矿床，这可能具有商业价值。

7.The mineral composition of the rock included significant amounts of gehlenite (格伦石), which contributed to its unique properties.

这块岩石的矿物成分中包含了大量的gehlenite（格伦石），这使得它具有独特的性质。

8.During the analysis, they identified gehlenite (格伦石) as a key component in the mineral mixture.

在分析过程中，他们将gehlenite（格伦石）确定为矿物混合物中的关键成分。

作文

In the world of geology and mineralogy, various minerals play crucial roles in understanding the Earth's composition and the processes that shape it. One such mineral is gehlenite, which is a member of the melilite group. It is primarily composed of calcium, aluminum, and silicate, and is often found in volcanic rocks. The importance of gehlenite extends beyond its chemical composition; it also provides insights into the conditions under which certain rocks form. For instance, gehlenite typically crystallizes at high temperatures, indicating that it is formed in environments where magma cools rapidly. This characteristic makes it a vital subject of study for geologists who aim to reconstruct the thermal history of igneous rocks.The presence of gehlenite can also indicate specific geological processes, such as the differentiation of magma. When magma rises to the surface, it can undergo various changes in temperature and pressure, leading to the formation of different minerals. The crystallization of gehlenite signifies that certain elements were available during the cooling process, which can help scientists understand the source of the magma and the conditions it experienced. Additionally, studying gehlenite can reveal information about the tectonic settings in which these rocks are found, whether they are associated with subduction zones or rift environments.Beyond its geological significance, gehlenite has practical applications in various industries. For example, due to its refractory properties, gehlenite is utilized in the production of ceramics and glass. Its ability to withstand high temperatures makes it an ideal component for materials that must endure extreme conditions. Furthermore, researchers are exploring the potential of gehlenite in the field of environmental science, particularly in the context of waste management and recycling. The mineral's unique properties could be harnessed to develop new methods for treating industrial waste or improving the sustainability of certain manufacturing processes.In conclusion, gehlenite is more than just a mineral; it is a window into the Earth's geological history and a resource with practical applications. Understanding gehlenite allows geologists to piece together the complex puzzle of our planet's formation and evolution. As research continues, the significance of gehlenite may expand, revealing even more about the natural world and how we can utilize its properties for human advancement. Through the study of minerals like gehlenite, we gain a deeper appreciation for the intricate processes that govern our planet and the materials that arise from them.

在地质学和矿物学的世界中，各种矿物在理解地球成分及塑造地球的过程方面起着至关重要的作用。其中一种矿物是gehlenite，它是美利石族的一员。它主要由钙、铝和硅酸盐组成，通常在火山岩中发现。gehlenite的重要性不仅在于其化学成分；它还提供了关于某些岩石形成条件的见解。例如，gehlenite通常在高温下结晶，这表明它是在岩浆快速冷却的环境中形成的。这一特征使其成为地质学家研究火成岩热历史的重要对象。gehlenite的存在还可以指示特定的地质过程，例如岩浆的分异。当岩浆上升到地表时，它可能会经历温度和压力的各种变化，导致不同矿物的形成。gehlenite的结晶表明在冷却过程中某些元素是可用的，这可以帮助科学家理解岩浆的来源及其经历的条件。此外，研究gehlenite可以揭示这些岩石所处的构造背景，无论它们与俯冲带还是裂谷环境相关。除了其地质意义外，gehlenite在各个行业中也具有实际应用。例如，由于其耐火特性，gehlenite被用于陶瓷和玻璃的生产。它能够承受高温，使其成为必须经受极端条件的材料的理想成分。此外，研究人员正在探索gehlenite在环境科学领域的潜力，特别是在废物管理和回收方面。这种矿物的独特属性可以被利用来开发处理工业废物的新方法或改善某些制造过程的可持续性。总之，gehlenite不仅仅是一种矿物；它是了解地球地质历史和具有实际应用的资源。理解gehlenite使地质学家能够拼凑出我们星球形成和演变的复杂拼图。随着研究的继续，gehlenite的意义可能会扩大，揭示更多关于自然世界的信息以及我们如何利用其属性来推动人类进步。通过对像gehlenite这样的矿物的研究，我们对支配我们星球的复杂过程以及从中产生的材料有了更深刻的欣赏。