acicular crystal

简明释义

针状结晶

英英释义

例句

1.The artist used acicular crystal 针状晶体 as a medium for their sculpture, highlighting the beauty of natural forms.

艺术家使用针状晶体作为雕塑的媒介，突显自然形态的美丽。

2.The mineral sample contained several distinct types of acicular crystal 针状晶体 formations, indicating a complex geological history.

矿物样本中包含几种不同类型的针状晶体形成，表明其复杂的地质历史。

3.During the mineral identification process, we noted the presence of acicular crystal 针状晶体 that were indicative of high-temperature conditions.

在矿物鉴定过程中，我们注意到存在针状晶体，这表明高温条件下的形成。

4.The acicular crystal 针状晶体 structure is often found in minerals like quartz and can be identified by its elongated shape.

在像石英这样的矿物中，通常可以找到针状晶体结构，并且可以通过其细长的形状进行识别。

5.In the laboratory, we observed the growth of acicular crystal 针状晶体 under a microscope, which provided insights into their unique properties.

在实验室中，我们在显微镜下观察到针状晶体的生长，这为它们独特的性质提供了见解。

作文

In the fascinating world of mineralogy, one can find a variety of crystal shapes and structures that exhibit unique properties. Among these, the term acicular crystal refers to crystals that are needle-like in shape, often elongated and slender. These crystals can be found in various minerals and are characterized by their sharp, pointed ends, resembling the shape of a needle. The formation of acicular crystals occurs under specific conditions, often involving rapid cooling or evaporation processes that allow the crystals to grow quickly in a linear fashion. Understanding the significance of acicular crystals is essential for both mineral collectors and scientists alike. For instance, the presence of these needle-like formations can indicate particular environmental conditions during mineral formation. In many cases, acicular crystals are formed in environments where there is a high concentration of certain elements, allowing them to crystallize in this elongated form. One well-known example of acicular crystals can be found in the mineral amphibole, which often exhibits this needle-like habit. These crystals can be quite striking, especially when they are found in clusters, creating a visually appealing display. Additionally, acicular crystals are not limited to just one type of mineral; they can also be observed in other minerals such as quartz and tourmaline, each exhibiting its unique color and luster. The study of acicular crystals extends beyond mere aesthetics; it has practical implications in various fields, including geology, materials science, and even medicine. In geology, understanding the formation of these crystals can provide insights into the conditions present during the rock's formation, helping geologists to reconstruct the geological history of an area. In materials science, the properties of acicular crystals can be exploited to create materials with specific mechanical properties, such as increased strength or flexibility. Furthermore, in the medical field, certain acicular crystals found in biological systems can play a role in understanding diseases or developing new treatments. Moreover, the aesthetic appeal of acicular crystals has made them popular among collectors and enthusiasts. Their unique shapes and forms can create stunning displays in mineral collections, and many people are drawn to the beauty of these needle-like structures. Collectors often seek out specimens of acicular crystals not only for their scientific value but also for their visual impact. In conclusion, acicular crystals are more than just a fascinating aspect of mineralogy; they represent a complex interplay between environmental conditions and crystalline growth. Their unique needle-like shape provides valuable information about the conditions under which they formed, making them significant for both scientific research and aesthetic appreciation. As we continue to explore the natural world, the study of acicular crystals will undoubtedly reveal even more intriguing insights into the processes that shape our planet.

在矿物学的迷人世界中，人们可以发现各种晶体形状和结构，展现出独特的性质。在这些晶体中，术语针状晶体指的是形状像针一样的晶体，通常是细长的。这些晶体可以在各种矿物中找到，其特征是尖锐的、指向的末端，类似于针的形状。针状晶体的形成发生在特定条件下，通常涉及快速冷却或蒸发过程，使晶体能够以线性方式迅速生长。理解针状晶体的重要性对矿物收藏家和科学家来说都是至关重要的。例如，这些针状结构的存在可以表明矿物形成过程中存在的特定环境条件。在许多情况下，针状晶体是在某些元素浓度较高的环境中形成的，使它们能够以这种细长的形式结晶。一个众所周知的针状晶体的例子可以在矿物角闪石中找到，它通常表现出这种针状习性。这些晶体可以相当引人注目，尤其是当它们成群出现时，创建出视觉上令人愉悦的展示。此外，针状晶体并不仅限于一种矿物；它们也可以在其他矿物中观察到，如石英和电气石，每种矿物都展现出其独特的颜色和光泽。对针状晶体的研究超越了单纯的美学；它在地质学、材料科学甚至医学等多个领域具有实际意义。在地质学中，了解这些晶体的形成可以提供关于岩石形成期间存在的条件的见解，帮助地质学家重建一个地区的地质历史。在材料科学中，可以利用针状晶体的性质来创造具有特定机械性能的材料，例如增强强度或灵活性。此外，在医学领域，某些生物系统中发现的针状晶体可能在理解疾病或开发新治疗方法方面发挥作用。此外，针状晶体的美学吸引力使它们在收藏家和爱好者中变得流行。它们独特的形状和形式可以在矿物收藏中创造惊人的展示，许多人被这些针状结构的美丽所吸引。收藏家通常不仅因其科学价值而寻求针状晶体的标本，也因其视觉冲击力。总之，针状晶体不仅仅是矿物学的迷人方面；它们代表了环境条件和晶体生长之间复杂的相互作用。它们独特的针状形状提供了有关它们形成时条件的重要信息，使它们在科学研究和审美欣赏中具有重要意义。随着我们继续探索自然世界，对针状晶体的研究无疑将揭示出更多关于塑造我们星球的过程的迷人见解。