tabular crystal

简明释义

平片状结晶

英英释义

例句

1.The mineral sample was identified as a tabular crystal, which is a type of crystal that has a flat, plate-like shape.

矿物样本被识别为一种平面晶体，这是一种具有平坦、板状形状的晶体。

2.When examining the rock, I noticed a shiny tabular crystal embedded within it.

在检查岩石时，我注意到里面嵌入了一块闪亮的平面晶体。

3.In geology class, we learned how to differentiate between a tabular crystal and other crystal forms.

在地质课上，我们学习了如何区分平面晶体和其他晶体形式。

4.The collector was excited to find a rare tabular crystal during their expedition.

收藏家在探险中找到了一块稀有的平面晶体，感到非常兴奋。

5.The tabular crystal structure found in the sample indicates that it formed under specific environmental conditions.

样本中发现的平面晶体结构表明它是在特定环境条件下形成的。

作文

In the field of mineralogy, the term tabular crystal refers to a specific type of crystal that is characterized by its flat, plate-like shape. These crystals often exhibit a unique morphology that distinguishes them from other types of crystalline structures. The formation of tabular crystals can be attributed to various environmental factors, including temperature, pressure, and the chemical composition of the surrounding materials. Understanding these factors is crucial for geologists and mineralogists who study the geological processes that lead to the formation of different minerals.One of the fascinating aspects of tabular crystals is their occurrence in nature. They can be found in various geological settings, from igneous rocks to sedimentary deposits. For instance, some common examples of tabular crystals include certain varieties of feldspar and mica, which are prevalent in granite formations. Their distinctive flat surfaces not only make them visually appealing but also contribute to their physical properties, such as cleavage and fracture patterns. This is particularly important when it comes to the identification of minerals in the field.Moreover, the study of tabular crystals extends beyond mere identification. Researchers often explore the conditions under which these crystals form, as this can provide valuable insights into the history of the geological environment. By analyzing the size, shape, and arrangement of tabular crystals, scientists can infer the temperature and pressure conditions that prevailed during their formation. This information is vital for reconstructing past geological events and understanding the processes that shape our planet.In addition to their scientific significance, tabular crystals also have practical applications. For example, in the field of materials science, researchers are investigating the unique properties of these crystals for use in various technologies. The flat shape of tabular crystals can enhance their performance in electronic devices, where surface area and conductivity are critical factors. As technology continues to advance, the potential applications of tabular crystals may expand further, leading to innovative solutions in electronics, optics, and even nanotechnology.Furthermore, the aesthetic appeal of tabular crystals cannot be overlooked. Many collectors and enthusiasts are drawn to these unique formations for their beauty and rarity. Mineral shows and exhibitions often feature stunning displays of tabular crystals, showcasing their intricate patterns and vibrant colors. This interest not only promotes awareness of mineralogy but also supports conservation efforts for natural mineral deposits.In conclusion, the study of tabular crystals encompasses a wide range of disciplines, from geology and mineralogy to materials science and art. Their unique characteristics and formation processes provide valuable insights into the natural world, while their practical applications and aesthetic qualities make them a subject of fascination for many. As we continue to explore the intricacies of these remarkable structures, we gain a deeper appreciation for the complexity and beauty of the Earth's geological processes.

在矿物学领域，短语tabular crystal指的是一种特定类型的晶体，其特征是扁平的、板状的形状。这些晶体通常表现出独特的形态，与其他类型的晶体结构区别开来。tabular crystals的形成可以归因于多种环境因素，包括温度、压力和周围材料的化学成分。理解这些因素对于研究导致不同矿物形成的地质过程的地质学家和矿物学家至关重要。tabular crystals的一个迷人方面是它们在自然界中的出现。它们可以在各种地质环境中找到，从火成岩到沉积物。例如，一些常见的tabular crystals的例子包括某些种类的长石和云母，它们在花岗岩形成中很常见。它们独特的平坦表面不仅使其视觉上吸引人，还对其物理属性（如解理和断裂模式）有贡献。这在野外识别矿物时尤其重要。此外，研究tabular crystals的工作不仅限于简单的识别。研究人员常常探讨这些晶体形成的条件，因为这可以提供有关地质环境历史的宝贵见解。通过分析tabular crystals的大小、形状和排列，科学家可以推断出它们形成时的温度和压力条件。这些信息对于重建过去的地质事件和理解塑造我们星球的过程至关重要。除了科学意义外，tabular crystals还具有实际应用。例如，在材料科学领域，研究人员正在探索这些晶体的独特性质，以用于各种技术。tabular crystals的扁平形状可以提高它们在电子设备中的性能，在这些设备中，表面积和导电性是关键因素。随着技术的不断进步，tabular crystals的潜在应用可能会进一步扩展，导致电子、光学甚至纳米技术中的创新解决方案。此外，tabular crystals的美学吸引力也不容忽视。许多收藏者和爱好者因其美丽和稀有而被这些独特的形成所吸引。矿物展览和展览常常展示令人惊叹的tabular crystals展示，展示其复杂的图案和生动的颜色。这种兴趣不仅提高了对矿物学的认识，还有助于保护自然矿物储量。总之，研究tabular crystals涵盖了广泛的学科，从地质学和矿物学到材料科学和艺术。它们独特的特征和形成过程为自然世界提供了宝贵的见解，而它们的实际应用和美学特质使其成为许多人的迷人主题。随着我们继续探索这些非凡结构的复杂性，我们对地球地质过程的复杂性和美感有了更深刻的理解。