argillite
简明释义
n. 粘板岩;硅质粘土岩
英英释义
A type of sedimentary rock that is composed primarily of clay-sized particles and is often formed from the compaction of mud. | 一种沉积岩,主要由粘土颗粒组成,通常是由泥土的压实形成的。 |
单词用法
粘土岩层 | |
粘土岩构造 | |
沉积粘土岩 | |
粘土岩 | |
粘土岩沉积物 | |
粘土岩样本 |
同义词
| 页岩 | 页岩常用于石油和天然气的生产。 | ||
| 粘土石 | 粘土石可以在沉积岩层中找到。 | ||
| 泥岩 | 泥岩通常比页岩的裂缝少。 |
反义词
| 花岗岩 | Granite is commonly used for countertops due to its durability. | 花岗岩因其耐用性常用于台面。 | |
| 砂岩 | 砂岩常用于建筑和园艺。 |
例句
1.On this basis, triaxial cyclic loading and unloading tests of argillite with obviously bedded structures are designed and completed.
在此基础上,设计并完成具有明显层理状结构的泥质板岩的三轴循环加卸载试验。
2.On this basis, triaxial cyclic loading and unloading tests of argillite with obviously bedded structures are designed and completed.
在此基础上,设计并完成具有明显层理状结构的泥质板岩的三轴循环加卸载试验。
3.The museum's exhibit included samples of argillite from various regions.
博物馆的展览包括来自不同地区的页岩样本。
4.Geologists often study argillite to understand sedimentary processes.
地质学家常常研究页岩以理解沉积过程。
5.The construction team decided to use argillite for the foundation due to its durability.
施工队决定使用页岩作为基础材料,因为它的耐久性。
6.In some areas, argillite is used as a decorative stone in landscaping.
在某些地区,页岩被用作园林美化中的装饰石。
7.The presence of argillite indicates a history of ancient marine environments.
存在页岩表明古代海洋环境的历史。
作文
Argillite is a type of sedimentary rock that is primarily composed of clay-sized particles, which gives it a unique texture and appearance. This rock is formed from the lithification of clay-rich sediments, often found in environments where fine-grained materials accumulate, such as river deltas or lake beds. Understanding the characteristics and formation processes of argillite (页岩) is essential for geologists and those interested in earth sciences. One of the most fascinating aspects of argillite (页岩) is its ability to retain water and nutrients, making it an important component of soil formation. In agricultural contexts, argillite (页岩) can contribute to the fertility of the land, as its fine particles help hold moisture and provide a habitat for microorganisms. This property is particularly valuable in regions where water is scarce, allowing farmers to cultivate crops more effectively. In addition to its agricultural significance, argillite (页岩) has various industrial applications. Due to its composition, it can be transformed into ceramics and bricks. The clay minerals within argillite (页岩) are often used in pottery and tile production, showcasing its versatility beyond just being a geological feature. Moreover, because argillite (页岩) is relatively easy to carve and shape, it has been utilized in creating sculptures and decorative items. Geologically, argillite (页岩) serves as an important marker in stratigraphy. Its presence can indicate past environmental conditions, allowing scientists to reconstruct ancient ecosystems. For instance, layers of argillite (页岩) may suggest periods of low-energy deposition, where finer materials settled out of suspension in calm waters. By studying these layers, researchers can gain insights into the historical climate and geological events that shaped our planet. Furthermore, the study of argillite (页岩) can also provide clues about the tectonic movements that have occurred over millions of years. As these rocks are often found in regions with significant geological activity, their analysis can help geologists understand the processes that lead to mountain building and other geological phenomena. This aspect of argillite (页岩) research highlights the interconnectedness of geological processes and the importance of sedimentary rocks in the broader context of earth science. In conclusion, argillite (页岩) is more than just a simple rock; it is a key player in various natural processes and human activities. From its role in agriculture to its significance in industrial applications and geological studies, understanding argillite (页岩) enriches our knowledge of the earth's systems. As we continue to explore and study this fascinating rock type, we uncover more about our planet's history and the intricate relationships between geology, ecology, and human society.
页岩是一种沉积岩,主要由粘土颗粒组成,这使其具有独特的质地和外观。这种岩石是通过粘土富含沉积物的岩石化形成的,通常在细粒材料积累的环境中发现,例如河口或湖床。理解argillite(页岩)的特征和形成过程对地质学家和对地球科学感兴趣的人来说至关重要。argillite(页岩)最引人入胜的方面之一是它能够保留水分和养分,使其成为土壤形成的重要组成部分。在农业环境中,argillite(页岩)可以促进土地的肥沃,因为它的细颗粒有助于保持水分并为微生物提供栖息地。这一特性在水资源匮乏的地区尤为宝贵,使农民能够更有效地种植作物。除了农业意义外,argillite(页岩)还有各种工业应用。由于其成分,它可以转化为陶瓷和砖块。argillite(页岩)中的粘土矿物常用于陶器和瓷砖生产,展示了它在地质特征之外的多样性。此外,由于argillite(页岩)相对容易雕刻和塑形,它被用于创造雕塑和装饰物品。在地质学上,argillite(页岩)在地层学中起着重要的标志作用。它的存在可以指示过去的环境条件,使科学家能够重建古生态系统。例如,argillite(页岩)层可能表明低能量沉积期,在这种情况下,较细的材料在平静的水域中沉降。通过研究这些层,研究人员可以获得关于塑造我们星球的历史气候和地质事件的见解。此外,对argillite(页岩)的研究还可以提供有关数百万年来发生的构造运动的线索。由于这些岩石通常在具有显著地质活动的地区发现,因此它们的分析可以帮助地质学家理解导致山脉形成和其他地质现象的过程。这一方面的argillite(页岩)研究突显了地质过程之间的相互联系,以及沉积岩在更广泛的地球科学背景中的重要性。总之,argillite(页岩)不仅仅是一种简单的岩石;它在各种自然过程和人类活动中扮演着关键角色。从其在农业中的作用到在工业应用和地质研究中的重要性,理解argillite(页岩)丰富了我们对地球系统的知识。随着我们继续探索和研究这一迷人的岩石类型,我们揭示了关于我们星球历史以及地质、生态与人类社会之间复杂关系的更多信息。
