crystal habit

简明释义

晶体形态

英英释义

例句

1.Geologists often use the crystal habit as an important identifying feature when classifying minerals.

地质学家通常将晶体习性作为分类矿物时的重要识别特征。

2.Different environmental conditions can lead to variations in the crystal habit of the same mineral.

不同的环境条件可以导致同一种矿物的晶体习性发生变化。

3.The collector was fascinated by the unique crystal habit of the rare mineral he found during his expedition.

收藏家对他在探险中发现的稀有矿物的独特晶体习性感到着迷。

4.In the laboratory, we observed how temperature changes affected the crystal habit of the growing salt crystals.

在实验室里，我们观察到温度变化如何影响生长中的盐晶体的晶体习性。

5.The mineralogist explained that the crystal habit refers to the characteristic shape of a crystal, which can provide clues about its formation.

矿物学家解释说，晶体习性指的是晶体的特征形状，这可以提供有关其形成的线索。

作文

The term crystal habit refers to the characteristic shape and form that a crystal takes as it grows. This phenomenon is a crucial aspect of mineralogy and crystallography, as it helps scientists identify and categorize different minerals based on their physical appearance. Understanding crystal habit can provide insight into the conditions under which a mineral formed, including temperature, pressure, and the chemical environment. For instance, some minerals may exhibit a cubic crystal habit, while others might display a more elongated or needle-like form. These shapes can be influenced by various factors such as the availability of space for growth and the presence of other minerals nearby.In nature, crystal habit plays a significant role in the aesthetics of gemstones and minerals. Collectors often seek out specimens with unique or particularly beautiful crystal habits. For example, quartz can form in several different habits, including massive, fibrous, or prismatic forms. Each of these forms not only has different visual characteristics but may also have varying hardness or cleavage properties. This diversity in crystal habit is one reason why quartz is one of the most widely used minerals in jewelry and decorative items.Moreover, the study of crystal habit extends beyond just aesthetics; it has practical applications in various fields, including chemistry, physics, and materials science. In pharmaceuticals, for instance, the crystal habit of a drug can influence its solubility and bioavailability, affecting how well the medication works in the body. Scientists and researchers pay close attention to crystal habit when developing new drugs to ensure they achieve the desired therapeutic effects.In addition, understanding crystal habit can aid in the development of new materials with specific properties. For example, in electronics, the performance of semiconductors can be affected by their crystal habit, influencing conductivity and overall efficiency. Engineers and material scientists often manipulate the growth conditions of crystals to achieve desired habits that optimize performance for various applications.In conclusion, the concept of crystal habit is fundamental to the study of minerals and materials. It encompasses not only the aesthetic qualities of crystals but also their functional properties in various scientific and industrial applications. By understanding crystal habit, we can gain valuable insights into the natural world and harness these insights for technological advancements. Whether in the beauty of a gemstone or the effectiveness of a new drug, the implications of crystal habit are far-reaching and significant, making it a vital area of study in both geology and materials science.

“晶体习性”一词指的是晶体在生长过程中所形成的特征形状和形式。这一现象是矿物学和晶体学的重要方面，因为它帮助科学家根据物理外观识别和分类不同的矿物。理解“晶体习性”可以提供有关矿物形成条件的见解，包括温度、压力和化学环境。例如，一些矿物可能呈现立方体“晶体习性”，而其他矿物则可能显示出更长或针状的形态。这些形状可能受到多种因素的影响，如生长空间的可用性和附近其他矿物的存在。在自然界中，“晶体习性”在宝石和矿物的美学中发挥着重要作用。收藏家通常会寻找具有独特或特别美丽的“晶体习性”的标本。例如，石英可以形成几种不同的习性，包括块状、纤维状或柱状形式。每种形式不仅具有不同的视觉特征，可能还具有不同的硬度或解理特性。“晶体习性”的这种多样性是石英成为珠宝和装饰品中最广泛使用的矿物之一的原因。此外，“晶体习性”的研究不仅限于美学；它在化学、物理和材料科学等多个领域具有实际应用。例如，在制药行业，药物的“晶体习性”可以影响其溶解度和生物利用度，进而影响药物在体内的效果。科学家和研究人员在开发新药时密切关注“晶体习性”，以确保其达到预期的治疗效果。此外，理解“晶体习性”可以帮助开发具有特定性能的新材料。例如，在电子学中，半导体的性能可能受到其“晶体习性”的影响，从而影响导电性和整体效率。工程师和材料科学家通常操控晶体的生长条件，以实现优化性能所需的习性，以适应各种应用。总之，“晶体习性”的概念是矿物和材料研究的基础。它不仅涵盖了晶体的美学特质，还涵盖了它们在各种科学和工业应用中的功能特性。通过理解“晶体习性”，我们可以获得对自然界的宝贵见解，并利用这些见解推动技术进步。无论是在宝石的美丽中，还是在新药的有效性中，“晶体习性”的影响都是深远而重要的，使其成为地质学和材料科学中一个至关重要的研究领域。