Bravais-twinned plate

简明释义

布拉维双晶试板;

英英释义

A Bravais-twinned plate refers to a crystal structure that exhibits twinning, where two or more crystals share some of the same crystal lattice points in a symmetrical manner, resulting in a specific orientation relationship between them.

Bravais-孪晶片是指一种晶体结构,表现出孪生现象,其中两个或多个晶体以对称的方式共享一些相同的晶格点,从而形成特定的取向关系。

例句

1.In crystallography, a Bravais-twinned plate can significantly affect the optical properties of the material, or 布拉维双晶片可以显著影响材料的光学性质。

在晶体学中,布拉维双晶片可以显著影响材料的光学特性。

2.During the experiment, we identified multiple Bravais-twinned plates in the crystal structure, or 在实验过程中,我们识别出了多个布拉维双晶片在晶体结构中。

在实验中,我们在晶体结构中识别出了多个布拉维双晶片

3.The researcher observed a clear example of a Bravais-twinned plate in the mineral sample, which is known as a 布拉维双晶片.

研究人员在矿物样本中观察到了一个清晰的布拉维双晶片例子。

4.The formation of a Bravais-twinned plate often indicates specific growth conditions, or 布拉维双晶片的形成通常表明特定的生长条件。

一个布拉维双晶片的形成通常指示了特定的生长条件。

5.The optical microscope revealed the presence of a Bravais-twinned plate, which is crucial for our study, or 光学显微镜揭示了一个布拉维双晶片的存在,这对我们的研究至关重要。

光学显微镜揭示了一个布拉维双晶片的存在,这对我们的研究至关重要。

作文

In the realm of crystallography, understanding the concept of a Bravais-twinned plate is essential for both theoretical and practical applications. Crystallography, the study of crystals and their structures, often involves various forms of symmetry and arrangement. A Bravais-twinned plate refers to a specific type of crystal formation that exhibits a unique symmetry relationship with another crystal. This phenomenon occurs when two or more crystals share a common lattice point but are oriented in different directions. The term 'Bravais' comes from the French physicist Auguste Bravais, who established the foundational concepts of crystal lattices. His work laid the groundwork for identifying and categorizing different crystal systems, which are crucial for understanding material properties.A Bravais-twinned plate can be visualized as two plates of crystal that are joined together in such a way that they mirror each other's structure. This twinning can occur in various ways, leading to different types of twin relationships, such as contact twins or penetration twins. In contact twins, the two crystals are joined along a specific line, while in penetration twins, one crystal partially penetrates the other. The significance of this twinning lies in its impact on the physical properties of the material, such as its optical characteristics, mechanical strength, and overall stability.The study of Bravais-twinned plates has practical implications in fields such as materials science, geology, and even biology. For instance, in materials science, understanding the twinning behavior of certain metals can help engineers design stronger alloys that can withstand extreme conditions. Similarly, geologists may study these formations to gain insights into the history of rock formation and the environmental conditions that led to the creation of specific mineral deposits.Moreover, the optical properties of Bravais-twinned plates are of significant interest in the field of optics. The unique arrangement of atoms within the twin structure can lead to interesting light interactions, making these materials valuable for applications in lasers and photonics. Researchers are continuously exploring how these properties can be harnessed to develop new technologies, such as more efficient solar cells or advanced imaging systems.In summary, the Bravais-twinned plate is a fascinating subject within crystallography that highlights the intricate relationships between crystal structures. The ability of crystals to form twins not only enriches our understanding of their formation but also opens up numerous avenues for technological advancements. As we continue to delve deeper into the world of materials science and crystallography, the study of Bravais-twinned plates will undoubtedly play a pivotal role in shaping future innovations. The exploration of these unique crystal formations serves as a reminder of the beauty and complexity inherent in the natural world, encouraging further research and discovery in this captivating field.

在晶体学领域,理解“Bravais-twinned plate”的概念对于理论和实践应用都是至关重要的。晶体学是研究晶体及其结构的学科,通常涉及各种对称性和排列形式。“Bravais-twinned plate”指的是一种特定类型的晶体形成,它与另一种晶体表现出独特的对称关系。这种现象发生在两个或多个晶体共享一个共同的晶格点但朝不同方向定向时。“Bravais”这个术语来源于法国物理学家奥古斯特·布拉维,他建立了晶体格子的基础概念。他的工作为识别和分类不同的晶体系统奠定了基础,这对理解材料属性至关重要。“Bravais-twinned plate”可以被视为两片晶体以某种方式结合在一起,彼此镜像其结构。这种双晶可以以多种方式发生,导致不同类型的双晶关系,例如接触双晶或穿透双晶。在接触双晶中,两种晶体沿特定线连接,而在穿透双晶中,一个晶体部分穿透另一个晶体。这种双晶的意义在于它对材料的物理属性的影响,例如光学特性、机械强度和整体稳定性。“Bravais-twinned plates”的研究在材料科学、地质学甚至生物学等领域具有实际意义。例如,在材料科学中,了解某些金属的双晶行为可以帮助工程师设计出能够承受极端条件的更强合金。同样,地质学家可能会研究这些形成,以深入了解岩石形成的历史以及导致特定矿物沉积的环境条件。此外,“Bravais-twinned plates”的光学特性在光学领域也引起了极大的兴趣。双晶结构中原子的独特排列可以导致有趣的光相互作用,使这些材料在激光和光子学应用中具有价值。研究人员不断探索如何利用这些特性来开发新技术,例如更高效的太阳能电池或先进的成像系统。总之,“Bravais-twinned plate”是晶体学中的一个迷人主题,突显了晶体结构之间复杂的关系。晶体形成双晶的能力不仅丰富了我们对其形成的理解,还为技术进步开辟了无数途径。随着我们继续深入材料科学和晶体学的世界,“Bravais-twinned plates”的研究无疑将在塑造未来创新方面发挥关键作用。对这些独特晶体形成的探索提醒我们自然界固有的美丽和复杂性,鼓励在这一迷人领域进一步研究和发现。