silicious

简明释义

英[sɪˈlɪʃəs]美[sɪˈlɪʃəs]

adj. 含硅的；硅土的；硅酸的

英英释义

单词用法

同义词

反义词

例句

1.Diagenetic minerals are mainly thin film shaped chlorite and increasing shaped quartz minerals. There are autogenous apatites, filled silicious and carbonate minerals as well.

成岩矿物主要为薄膜状绿泥石及加大状石英质矿物，还有自生磷灰石、充填状硅质及碳酸盐矿物。

2.While using silicious insulation plate as the working lining for continuous casting tundish at the 2nd Steelmaking Plant of our company, the skin blowholes occurred seriously on the head of billets.

我公司二炼钢连铸中间罐工作衬，采用硅质绝热板时，其铸坯头部皮下气泡严重。

3.While using silicious insulation plate as the working lining for continuous casting tundish at the 2nd Steelmaking Plant of our company, the skin blowholes occurred seriously on the head of billets.

我公司二炼钢连铸中间罐工作衬，采用硅质绝热板时，其铸坯头部皮下气泡严重。

4.Metallic compounds include boride, silicious and compound carbide, etc.

金属化合物有硼化物、硅化物、复合碳比物等。

5.The silicious 硅质的 soil in this region is ideal for growing certain types of crops.

该地区的硅质的土壤非常适合种植某些类型的作物。

6.In the laboratory, we studied the properties of silicious 硅质的 materials for potential industrial applications.

在实验室中，我们研究了硅质的材料的特性，以便寻找潜在的工业应用。

7.Many glass products are made from silicious 硅质的 sand, which is a key ingredient.

许多玻璃产品是由硅质的沙子制成的，这是一个关键成分。

8.The geologist examined the rock sample and noted its silicious 硅质的 composition.

地质学家检查了岩石样本，并注意到其硅质的成分。

9.The presence of silicious 硅质的 minerals can affect the durability of concrete.

硅质的矿物的存在可能会影响混凝土的耐久性。

作文

The natural world is filled with an astonishing variety of minerals, each contributing to the beauty and functionality of our planet. Among these, one particularly interesting category is that of silicious minerals. These minerals, primarily composed of silica, are not only abundant but also play a crucial role in various geological and biological processes. Understanding the significance of silicious materials can enhance our appreciation for the earth's intricate systems. Silicious minerals, such as quartz and opal, are formed through various geological processes, including volcanic activity and sedimentation. Their unique properties make them essential in many industries, from construction to electronics. For instance, quartz is widely used in manufacturing glass, ceramics, and even in the production of computer chips due to its excellent electrical insulating properties. The versatility of silicious minerals showcases their importance in modern technology. Beyond their industrial applications, silicious minerals also play a vital role in the environment. They contribute to soil formation and fertility, providing essential nutrients for plant growth. The presence of silicious compounds in soil can improve its structure, promoting better water retention and aeration. This is particularly important in agricultural practices, where healthy soil is fundamental for sustainable crop production. Furthermore, silicious materials are often utilized in water filtration systems, helping to purify drinking water by removing impurities and contaminants. In addition to their practical uses, silicious minerals have fascinating aesthetic qualities. The vibrant colors and patterns found in various silicious gemstones, such as agate and jasper, make them highly sought after in jewelry making and decorative arts. These minerals can tell a story of the earth's history, revealing information about the conditions under which they formed. As we delve deeper into the study of geology and mineralogy, the significance of silicious minerals becomes increasingly evident. They are not just simple components of the earth's crust; they are integral to understanding the planet's evolution and the interactions between its physical and biological systems. In conclusion, the study of silicious minerals offers valuable insights into both the natural world and human innovation. From their industrial applications to their ecological importance, silicious minerals are a testament to the complexity and interconnectedness of our planet. By appreciating and understanding these materials, we can foster a greater respect for the earth and its resources, ensuring their preservation for future generations.

自然界中充满了令人惊叹的矿物种类，每种矿物都为我们星球的美丽和功能做出了贡献。其中，一个特别有趣的类别是硅质矿物。这些矿物主要由二氧化硅组成，不仅丰富，而且在各种地质和生物过程中发挥着至关重要的作用。理解硅质材料的重要性可以增强我们对地球复杂系统的欣赏。硅质矿物，如石英和蛋白石，是通过各种地质过程形成的，包括火山活动和沉积。它们独特的性质使其在许多行业中必不可少，从建筑到电子产品。例如，石英被广泛用于制造玻璃、陶瓷，甚至在计算机芯片的生产中，由于其优良的电绝缘性能。硅质矿物的多样性展示了它们在现代技术中的重要性。除了工业应用，硅质矿物在环境中也发挥着重要作用。它们有助于土壤的形成和肥力，为植物生长提供必要的养分。硅质化合物在土壤中的存在可以改善其结构，促进更好的水分保持和通气。这在农业实践中尤其重要，因为健康的土壤是可持续作物生产的基础。此外，硅质材料常用于水过滤系统，帮助通过去除杂质和污染物来净化饮用水。除了实际用途，硅质矿物还具有迷人的美学特性。各种硅质宝石，如玛瑙和碧玉，所呈现出的鲜艳颜色和图案，使其在珠宝制作和装饰艺术中备受追捧。这些矿物能够讲述地球历史的故事，揭示它们形成时的条件。随着我们深入研究地质学和矿物学，硅质矿物的重要性变得愈加明显。它们不仅仅是地壳的简单组成部分；它们对于理解地球的演变以及其物理和生物系统之间的相互作用至关重要。总之，研究硅质矿物为我们提供了关于自然世界和人类创新的宝贵见解。从它们的工业应用到生态重要性，硅质矿物是我们星球复杂性和相互联系的证明。通过欣赏和理解这些材料，我们可以培养对地球及其资源的更大尊重，确保为子孙后代保护它们。