triclinic
简明释义
adj. 三斜晶系的,三斜的
英英释义
Relating to or denoting a system of crystallography in which the unit cell is defined by three unequal axes that are not at right angles to each other. | 与晶体学中的一种体系相关或表示,该体系的单元胞由三个不相等且不互相垂直的轴定义。 |
单词用法
三斜对称 | |
三斜轴 | |
三斜矿物 | |
属于三斜晶系 | |
三斜晶体的特征 | |
分析三斜相 |
同义词
| 不对称的 | The crystal structure is asymmetric, indicating a triclinic system. | 晶体结构是不对称的,表明这是一个三斜晶系。 | |
| 非矩形的 | In materials science, non-rectangular lattices can be classified as triclinic. | 在材料科学中,非矩形晶格可以被归类为三斜晶格。 |
反义词
例句
1.This method can be applied to all crystal systems, except for the triclinic.
此方法可适用于除三斜晶系外的全部晶系。
2.This method can be applied to all crystal systems, except for the triclinic.
此方法可适用于除三斜晶系外的全部晶系。
3.Some minerals, like feldspar, exhibit a triclinic 三斜晶系 structure that affects their physical properties.
一些矿物,如长石,表现出triclinic 三斜晶系 结构,这影响了它们的物理特性。
4.The triclinic 三斜晶系 system is one of the seven crystal systems used to classify crystals.
triclinic 三斜晶系 系统是用于分类晶体的七种晶体系统之一。
5.The mineral quartz can crystallize in a variety of forms, but its most common structure is the triclinic 三斜晶系 form.
矿物石英可以以多种形式结晶,但其最常见的结构是triclinic 三斜晶系 形式。
6.The triclinic 三斜晶系 symmetry means that all angles and lengths are different in the unit cell.
triclinic 三斜晶系 对称性意味着单元格中的所有角度和长度都不同。
7.In crystallography, a triclinic 三斜晶系 lattice has no symmetry elements other than the identity.
在晶体学中,triclinic 三斜晶系 晶格除了恒等性外没有其他对称元素。
作文
The study of crystal structures is a fascinating field that combines both chemistry and physics. One of the most interesting types of crystal systems is the triclinic system. In crystallography, the triclinic system is characterized by having three unequal axes that are not perpendicular to each other. This unique arrangement leads to a variety of shapes and forms that can be observed in nature. Understanding the triclinic system is essential for scientists and researchers who work with minerals and other crystalline materials.Crystals are solid materials whose atoms are arranged in a highly ordered structure. The triclinic system is one of the seven crystal systems, which also include cubic, tetragonal, orthorhombic, hexagonal, rhombohedral, and monoclinic. Each of these systems has its own distinct properties and characteristics. The triclinic system, however, is unique because it lacks the symmetry found in other systems. This lack of symmetry can make triclinic crystals more complex to analyze and categorize.One example of a triclinic crystal is the mineral kyanite, which is known for its striking blue color and elongated shape. Kyanite exhibits the typical features of the triclinic system, with its three axes of different lengths and angles that do not meet at right angles. This results in a crystal that can appear quite irregular compared to those from more symmetrical systems. The study of such minerals is crucial in geology, as these triclinic crystals can provide valuable information about the conditions under which they formed.In addition to its applications in geology, the triclinic system has implications in materials science and engineering. Researchers are constantly looking for ways to manipulate the properties of materials for various applications. By understanding the triclinic structure, scientists can design new materials with specific characteristics that may be beneficial in industries such as electronics, optics, and nanotechnology.The triclinic system also plays a role in the development of pharmaceuticals. Many drugs are formulated using crystalline compounds, and the crystal structure can significantly affect the drug's solubility and stability. By studying the triclinic forms of these compounds, researchers can optimize their formulations to improve efficacy and reduce side effects.In conclusion, the triclinic system is an essential concept in the field of crystallography that highlights the diversity and complexity of crystal structures. Its unique characteristics set it apart from other crystal systems, making it a subject of interest across various scientific disciplines. As we continue to explore the properties of triclinic crystals, we unlock new possibilities for innovation in materials science, geology, and pharmaceuticals. The study of the triclinic system not only enhances our understanding of the natural world but also paves the way for advancements that can benefit society as a whole.
晶体结构的研究是一个迷人的领域,结合了化学和物理学。其中最有趣的晶体系统之一是三斜晶系。在晶体学中,三斜晶系的特点是具有三个不等的轴,这些轴之间不是相互垂直的。这种独特的排列导致了自然界中可以观察到的各种形状和形式。理解三斜晶系对从事矿物和其他晶体材料工作的科学家和研究人员至关重要。晶体是原子以高度有序的结构排列而成的固体材料。三斜晶系是七种晶体系统之一,其他系统包括立方、四方、正交、六方、菱方和单斜。每个系统都有其独特的属性和特征。然而,三斜晶系是独一无二的,因为它缺乏其他系统中的对称性。这种对称性的缺失使得三斜晶系晶体的分析和分类变得更加复杂。一种三斜晶系晶体的例子是矿物蓝柱石,以其引人注目的蓝色和细长的形状而闻名。蓝柱石表现出三斜晶系的典型特征,其三个长度和角度不同的轴并未在直角处相交。这导致了与来自更对称系统的晶体相比,晶体看起来相当不规则。对这些矿物的研究在地质学中至关重要,因为这些三斜晶系晶体可以提供有关其形成条件的宝贵信息。除了在地质学中的应用外,三斜晶系在材料科学和工程中也有重要意义。研究人员不断寻求操纵材料特性的方法,以用于各种应用。通过理解三斜晶系的结构,科学家可以设计出具有特定特性的材料,这些特性可能在电子学、光学和纳米技术等行业中具有益处。三斜晶系还在制药行业的发展中发挥着作用。许多药物是使用晶体化合物配制的,而晶体结构会显著影响药物的溶解性和稳定性。通过研究这些化合物的三斜晶系形式,研究人员可以优化其配方,以提高疗效并减少副作用。总之,三斜晶系是晶体学领域中的一个重要概念,突出了晶体结构的多样性和复杂性。其独特的特征使其与其他晶体系统区分开来,使其成为各个科学学科的研究对象。随着我们不断探索三斜晶系晶体的性质,我们为材料科学、地质学和制药领域的创新打开了新可能性。对三斜晶系的研究不仅增强了我们对自然世界的理解,也为能够惠及整个社会的进步铺平了道路。
