calcium melilite
简明释义
钙黄长石;
英英释义
Calcium melilite is a mineral belonging to the melilite group, characterized by its calcium content and commonly found in volcanic rocks. | 钙梅里石是一种属于梅里石族的矿物,以其含钙特性而闻名,通常在火山岩中发现。 |
例句
1.In ceramics, calcium melilite (钙梅利石) is often used to improve thermal stability.
在陶瓷中,钙梅利石(calcium melilite)常用于提高热稳定性。
2.The presence of calcium melilite (钙梅利石) in meteorites can provide insights into the early solar system.
在陨石中发现的钙梅利石(calcium melilite)可以提供关于早期太阳系的见解。
3.The mineral composition of the rock included significant amounts of calcium melilite (钙梅利石), which contributed to its unique properties.
这块岩石的矿物成分中包含了大量的钙梅利石(calcium melilite),这使得它具有独特的性质。
4.Researchers studied the formation of calcium melilite (钙梅利石) in volcanic environments to understand its crystallization process.
研究人员研究了火山环境中钙梅利石(calcium melilite)的形成,以了解其结晶过程。
5.Geologists often analyze calcium melilite (钙梅利石) to assess the metamorphic history of rocks.
地质学家经常分析钙梅利石(calcium melilite)以评估岩石的变质历史。
作文
Calcium melilite, represented chemically as Ca2Al2SiO7, is a fascinating mineral that plays an important role in various geological and industrial processes. This mineral is primarily found in volcanic rocks and is characterized by its unique crystal structure and composition. Understanding the properties and significance of calcium melilite (钙美利石) can provide insights into the Earth's crust and the formation of certain types of igneous rocks. One of the most intriguing aspects of calcium melilite (钙美利石) is its formation under high-temperature conditions. It typically crystallizes from molten rock during volcanic eruptions, where the temperature can exceed 1000 degrees Celsius. The presence of this mineral in volcanic rocks indicates specific conditions of magma evolution, which can help geologists understand past volcanic activity and the composition of the Earth's mantle.Moreover, calcium melilite (钙美利石) has significant implications in the field of materials science. Its unique properties, such as thermal stability and resistance to chemical weathering, make it a valuable component in the production of ceramics and glass. Researchers are exploring the use of calcium melilite (钙美利石) in advanced materials that require durability and high-temperature performance. For instance, the incorporation of this mineral into ceramic matrices can enhance their strength and thermal shock resistance, making them suitable for applications in aerospace and automotive industries.In addition to its industrial applications, calcium melilite (钙美利石) also serves as an important indicator of environmental conditions. The study of this mineral can reveal information about the temperature and pressure conditions during its formation, providing valuable data for reconstructing ancient environments. By analyzing samples of volcanic rocks containing calcium melilite (钙美利石), scientists can gain insights into the tectonic activities and climatic conditions that prevailed in a particular region millions of years ago.Furthermore, the occurrence of calcium melilite (钙美利石) in extraterrestrial materials, such as meteorites, has sparked interest in astrobiology and planetary science. The presence of this mineral in space rocks can offer clues about the conditions on other celestial bodies and the processes that led to the formation of our solar system. Studying calcium melilite (钙美利石) in these contexts can help scientists understand the potential for life beyond Earth and the geological history of planets and moons.In conclusion, calcium melilite (钙美利石) is more than just a mineral; it is a key to unlocking many geological mysteries and advancing material science. Its formation under extreme conditions, industrial applications, environmental significance, and extraterrestrial occurrences make it a subject of great interest across multiple scientific disciplines. As research continues to evolve, the understanding of calcium melilite (钙美利石) will undoubtedly lead to new discoveries that could impact both our understanding of the Earth and our exploration of the universe.
钙美利石(化学式为Ca2Al2SiO7)是一种迷人的矿物,在各种地质和工业过程中发挥着重要作用。这种矿物主要存在于火山岩中,其独特的晶体结构和成分使其具有独特性。理解钙美利石(calcium melilite)的性质和重要性,可以为我们提供对地壳及某些类型的火成岩形成的见解。钙美利石(calcium melilite)最引人注目的方面之一是它在高温条件下的形成。它通常在火山喷发期间从熔融岩石中结晶,温度可以超过1000摄氏度。这种矿物在火山岩中的存在表明了岩浆演化的特定条件,这可以帮助地质学家了解过去的火山活动和地球地幔的成分。此外,钙美利石(calcium melilite)在材料科学领域也具有重要意义。其独特的性质,如热稳定性和抗化学风化能力,使其成为陶瓷和玻璃生产中的宝贵成分。研究人员正在探索将钙美利石(calcium melilite)用于需要耐久性和高温性能的先进材料。例如,将这种矿物纳入陶瓷基体中,可以增强其强度和热冲击抵抗力,使其适用于航空航天和汽车工业等应用。除了工业应用外,钙美利石(calcium melilite)还作为环境条件的重要指示剂。对这种矿物的研究可以揭示其形成过程中的温度和压力条件,为重建古代环境提供有价值的数据。通过分析含有钙美利石(calcium melilite)的火山岩样本,科学家可以深入了解数百万年前某一地区的构造活动和气候条件。此外,钙美利石(calcium melilite)在外星材料(如陨石)中的出现,引发了对天体生物学和行星科学的兴趣。这种矿物在太空岩石中的存在可以提供关于其他天体条件的线索,以及导致我们太阳系形成的过程。研究在这些背景下的钙美利石(calcium melilite)可以帮助科学家理解地球以外的生命潜力以及行星和卫星的地质历史。总之,钙美利石(calcium melilite)不仅仅是一种矿物;它是揭开许多地质谜团和推进材料科学的关键。它在极端条件下的形成、工业应用、环境重要性以及在外星发生的情况使其在多个科学学科中备受关注。随着研究的不断发展,对钙美利石(calcium melilite)的理解无疑将导致新的发现,这些发现可能会影响我们对地球的理解以及对宇宙的探索。
相关单词
