recrystallize
简明释义
英[/ˌriːˈkrɪs.təl.aɪz/]美[/ˌriːˈkrɪs.təl.aɪz/]
vt. (使)再结晶
vi. 再结晶
第 三 人 称 单 数 r e c r y s t a l l i z e s
现 在 分 词 r e c r y s t a l l i z i n g
过 去 式 r e c r y s t a l l i z e d
过 去 分 词 r e c r y s t a l l i z e d
英英释义
To undergo a process in which a solid forms from a solution or melt, resulting in the formation of new crystal structures. | 经历一个过程,其中固体从溶液或熔体中形成,导致新晶体结构的形成。 |
单词用法
同义词
反义词
| 无定形的 | The material remained amorphous despite attempts to crystallize it. | 尽管尝试使其结晶,但材料仍然保持无定形。 | |
| 降解 | The polymer can degrade under certain conditions, losing its crystalline structure. | 在某些条件下,聚合物会降解,失去其结晶结构。 |
例句
1.A thermal treatment step is next performed so as to recrystallize the amorphized region of the defective semiconductor crystal material.
然后执行热处理步骤,以便使有缺陷的半导体晶体材料的非晶化区域再结晶。
2.Coarse crystalline LC4 Aluminium Alloy presents certain superplasticity at lower deformation temperature and higher strain rate because it can create effective recrystallize refinement.
粗晶lc 4合金在较低温度和较高应变速率条件下,因能产生有效的再结晶细化而呈现出一定的超塑性。
3.After the die, it takes some time for polymer molecules to get reoriented to a random manner again, and to recrystallize.
经过模具之后,聚合物分子需要一定的时间进行重新定型回复到随机方向,并再次结晶。
4.Coarse crystalline LC4 Aluminium Alloy presents certain superplasticity at lower deformation temperature and higher strain rate because it can create effective recrystallize refinement.
粗晶lc 4合金在较低温度和较高应变速率条件下,因能产生有效的再结晶细化而呈现出一定的超塑性。
5.The power, however, may be wasted - or a Saturnian reaction may recrystallize the "free potential" into patterns essentially not very different from the old ones.
但是权力却会被浪费——土星的反作用会使“自由的潜能”结晶成为不同于旧有事物的典范与楷模。
6.It will recrystallize into the original structure.
它将重新结晶为原来的结构。
7.In metallurgy, metals can recrystallize after being deformed through processes like rolling or forging.
在冶金学中,金属在经过轧制或锻造等过程变形后可以再结晶。
8.After cooling, the salt began to recrystallize in the bottom of the container.
冷却后,盐开始在容器底部再结晶。
9.To purify the compound, we need to recrystallize it from a suitable solvent.
为了纯化化合物,我们需要从合适的溶剂中再结晶它。
10.The scientist observed how the minerals would recrystallize under different environmental conditions.
科学家观察了矿物在不同环境条件下如何再结晶。
11.When the temperature drops, the sugar in the solution may begin to recrystallize, forming larger crystals.
当温度下降时,溶液中的糖可能开始再结晶,形成更大的晶体。
作文
The process of recrystallize is a fascinating phenomenon that occurs in various fields, especially in materials science and chemistry. When a solid material is subjected to changes in temperature or pressure, its internal structure can become disordered. This disordered state can lead to a variety of problems, such as decreased strength and increased brittleness. However, through the process of recrystallize (再结晶), the material can regain its original crystalline structure, enhancing its properties and performance.In the realm of metallurgy, recrystallize plays a crucial role in the treatment of metals. When metals are deformed through processes like rolling or hammering, their crystalline structures become elongated and distorted. This deformation can weaken the metal, making it susceptible to failure. By heating the metal to a specific temperature, the atoms within the crystal lattice gain enough energy to move and rearrange themselves into a more stable configuration. This process not only restores the material's strength but also improves its ductility, allowing it to be shaped without breaking.Similarly, in the field of chemistry, recrystallize is an important technique used for purifying compounds. During the synthesis of chemical substances, impurities often become trapped within the crystalline structure. To remove these impurities, chemists utilize a method where the compound is dissolved in a suitable solvent at high temperatures and then allowed to cool slowly. As the solution cools, the pure substance begins to recrystallize (再结晶), leaving the impurities behind in the solution. This method is essential for obtaining high-purity products, which are crucial for applications in pharmaceuticals and other industries.Moreover, recrystallize is not limited to solids; it can also apply to certain geological processes. For instance, when rocks are subjected to intense heat and pressure over long periods, minerals within the rock can undergo recrystallization (再结晶). This process can lead to the formation of metamorphic rocks, which exhibit distinct characteristics compared to their parent rocks. The study of these processes provides valuable insights into the Earth's history and the conditions that shape our planet.In conclusion, the concept of recrystallize (再结晶) is integral to understanding how materials behave under various conditions. Whether in metallurgy, chemistry, or geology, the ability of materials to recrystallize allows for the improvement of their properties and the purification of substances. As we continue to explore the intricacies of these processes, we gain a deeper appreciation for the science behind the materials that make up our world. The study of recrystallization not only enhances our knowledge but also paves the way for innovations in technology and industry.
再结晶的过程是一个迷人的现象,发生在多个领域,尤其是材料科学和化学。当固体材料受到温度或压力变化时,其内部结构可能变得无序。这种无序状态可能导致各种问题,例如强度下降和脆性增加。然而,通过再结晶的过程,材料可以恢复其原始的晶体结构,从而增强其性能和特性。在冶金学领域,再结晶在金属处理中的作用至关重要。当金属通过轧制或锤打等过程变形时,其晶体结构会变得拉长和扭曲。这种变形会削弱金属,使其容易发生失效。通过将金属加热到特定温度,晶格中的原子获得足够的能量以移动并重新排列成更稳定的构型。这个过程不仅恢复了材料的强度,还改善了其延展性,使其在不破裂的情况下能够被塑形。同样,在化学领域,再结晶是用于纯化化合物的重要技术。在化学物质的合成过程中,杂质往往被困在晶体结构中。为了去除这些杂质,化学家利用一种方法,将化合物溶解在高温下的适当溶剂中,然后慢慢冷却。当溶液冷却时,纯物质开始再结晶,留下杂质在溶液中。这个方法对于获得高纯度的产品至关重要,这在制药和其他行业的应用中尤为重要。此外,再结晶不仅限于固体;它也可以应用于某些地质过程。例如,当岩石在长时间内受到强烈的热和压力时,岩石内的矿物质可以经历再结晶。这一过程可以导致变质岩的形成,与其母岩相比,变质岩表现出明显的特征。这些过程的研究提供了对地球历史及塑造我们星球的条件的宝贵见解。总之,再结晶的概念在理解材料在各种条件下的行为方面是不可或缺的。无论是在冶金、化学还是地质学中,材料再结晶的能力都允许改善其特性和物质的纯化。随着我们继续探索这些过程的复杂性,我们对构成我们世界的材料背后的科学有了更深的欣赏。再结晶的研究不仅增强了我们的知识,而且为技术和工业的创新铺平了道路。
