monoclinic

简明释义

英[ˌmɒnəʊˈklɪnɪk]美[ˌmɑːnəˈklɪnɪk;mɑːnoʊˈklɪnɪk]

adj. [晶体] 单斜的；[晶体] 单斜晶体的

英英释义

单词用法

同义词

反义词

例句

1.The terrain was from northwest to southeast trend monoclinic dumping relief.

地形由西北向东南呈缓倾单斜态势。

2.Crocoite is a mineral consisting of lead chromate and crystallizing in a monoclinic crystal system, and it is the only chromate of any importance found in nature.

赤铅矿是一种由铬酸铅组成的矿石，以单斜晶体形式存在的结晶体。并且是自然界中发现的唯一一种重要铬酸盐。

3.Experimental results indicate that a high reaction temperature and quickly ascending temperature speed apparently increase the nucleation number of monoclinic zirconia in the precursor solution.

实验结果表明，高的反应温度和煅烧过程中快的升温速度明显增加了前驱体溶液中单斜氧化锆的形核数。

4.Lime shows a certain inhibition on hexagonal pyrrhotite, but no obvious inhibitory effect on monoclinic pyrrhotite.

石灰对单斜磁黄铁矿的抑制作用不明显，而对六方磁黄铁矿具有一定的抑制作用。

5.Green monoclinic crystal, undissolving in water, dissolving in diluted acid or ammonia.

性状Properties：绿色单斜晶体，不溶于水，溶于稀酸和氨水。

6.Physical : features : monoclinic, lolorless for excellent, lolorless or light yellow crystal for first grade.

物理状态：单斜晶，优等品为无色透明体，一等品为无色或带淡黄色晶体。

7.Gray and turquoise single monoclinic system crystalline powder or granule.

暗淡蓝绿单斜晶系晶体性粉末或颗粒。

8.The grinding group exhibited the highest amount of monoclinic phase, and the lowest amount was observed in the glazing group.

老化后所有组均出现单斜相，打磨组单斜相含量最高，上釉组最低。

9.Character: Gray and turquoise single monoclinic system crystalline powder or granule.

性能：暗淡蓝绿单斜晶系晶体性粉末或颗粒。

10.The monoclinic system is one of the seven crystal systems in mineralogy.

单斜晶系是矿物学中七种晶体系统之一。

11.Some important minerals like gypsum and orthoclase have a monoclinic structure.

一些重要的矿物如石膏和正长石具有单斜晶系结构。

12.In our lab, we study monoclinic crystals to understand their unique properties.

在我们的实验室，我们研究单斜晶体以了解它们独特的性质。

13.The monoclinic phase of the compound was confirmed using X-ray diffraction techniques.

使用X射线衍射技术确认了该化合物的单斜相。

14.The crystal structure of the mineral is classified as monoclinic, meaning it has three unequal axes with one oblique angle.

这种矿物的晶体结构被归类为单斜晶系，意味着它有三个不等的轴和一个斜角。

作文

The study of crystallography reveals a fascinating world where the arrangement of atoms forms distinct structures. One such structure is known as the monoclinic crystal system, which is characterized by three unequal axes, with one axis inclined to the other two. This unique arrangement allows for a variety of shapes and forms, making it an interesting subject for both scientists and artists alike. Crystals belonging to the monoclinic system are often found in nature, and they can exhibit remarkable properties that are useful in various applications.To understand the significance of the monoclinic system, we must first explore its properties. In a monoclinic crystal, two angles are equal to 90 degrees, while the third angle is not. This asymmetry gives rise to unique optical and physical characteristics. For instance, many minerals, such as gypsum and clinopyroxene, crystallize in this system, displaying beautiful and intricate patterns that captivate collectors and researchers.One of the most intriguing aspects of monoclinic crystals is their ability to form under specific conditions. They typically arise in environments where temperature and pressure play crucial roles. The formation process can take thousands of years, resulting in stunning specimens that tell the story of geological processes over time. Understanding how these crystals develop helps scientists gain insights into the Earth's history and the conditions that foster mineral growth.Moreover, the monoclinic system has practical implications in various fields. In materials science, for example, the unique properties of monoclinic crystals can be harnessed to create advanced materials with tailored characteristics. These materials are used in electronics, optics, and even pharmaceuticals, showcasing the versatility of monoclinic structures.In addition to their scientific significance, monoclinic crystals also inspire artists and designers. The geometric beauty and symmetry found in these structures can serve as a muse for creative endeavors. Artists often draw upon the forms and patterns of monoclinic crystals to create visually stunning works that reflect the harmony of nature's design.In conclusion, the monoclinic crystal system exemplifies the intersection of science and art. Its distinctive properties and formation processes offer valuable insights into the natural world, while its aesthetic appeal captivates the imagination. By studying monoclinic crystals, we not only deepen our understanding of crystallography but also appreciate the beauty that arises from the intricate arrangements of atoms. As we continue to explore this fascinating field, we unlock new possibilities that bridge the gap between knowledge and creativity.

晶体学的研究揭示了一个迷人的世界，在这个世界中，原子的排列形成了不同的结构。其中一个结构被称为单斜晶系，其特征是三个不等的轴，其中一个轴倾斜于另外两个。这种独特的排列使得各种形状和形式成为可能，使其成为科学家和艺术家都感兴趣的主题。属于单斜系统的晶体通常在自然界中发现，并且它们可以表现出显著的特性，这些特性在各种应用中非常有用。为了理解单斜系统的重要性，我们必须首先探索其性质。在单斜晶体中，两个角度等于90度，而第三个角度则不相等。这种不对称性产生了独特的光学和物理特性。例如，许多矿物，如石膏和辉石，都是在这一系统中结晶的，展示出美丽而复杂的图案，吸引着收藏家和研究者。单斜晶体最引人入胜的方面之一是它们在特定条件下形成的能力。它们通常在温度和压力起关键作用的环境中形成。形成过程可能需要数千年，产生出令人惊叹的标本，讲述了地质过程的历史。了解这些晶体如何发展有助于科学家深入了解地球的历史以及促进矿物生长的条件。此外，单斜系统在各个领域具有实际意义。例如，在材料科学中，单斜晶体的独特性质可以被利用来创造具有特定特性的先进材料。这些材料被用于电子、光学，甚至制药，展示了单斜结构的多功能性。除了其科学意义外，单斜晶体还激励着艺术家和设计师。这些结构所呈现的几何美和对称性可以作为创作工作的灵感来源。艺术家们常常借鉴单斜晶体的形式和图案，创造出视觉上令人惊叹的作品，反映自然设计的和谐美。总之，单斜晶系体现了科学与艺术的交汇。其独特的性质和形成过程为我们提供了对自然世界的宝贵见解，同时其美学吸引着人们的想象力。通过研究单斜晶体，我们不仅加深了对晶体学的理解，还欣赏到原子精细排列所产生的美。随着我们继续探索这一迷人的领域，我们解锁了知识与创造力之间的桥梁的新可能性。