oriented nuclei

简明释义

定向核

英英释义

例句

1.The researchers discovered that the presence of oriented nuclei 定向核 in the tissue samples improved regeneration.

研究人员发现，组织样本中存在的定向核 oriented nuclei 改善了再生效果。

2.During the experiment, scientists observed that oriented nuclei 定向核 formed in response to external stimuli.

在实验过程中，科学家观察到定向核 oriented nuclei 对外部刺激形成了反应。

3.The presence of oriented nuclei 定向核 is essential for the effective functioning of certain cell types.

某些细胞类型的有效功能需要存在定向核 oriented nuclei。

4.The alignment of oriented nuclei 定向核 can significantly affect the mechanical properties of the material.

定向核 oriented nuclei 的排列可以显著影响材料的机械性能。

5.In the study of muscle fibers, oriented nuclei 定向核 play a crucial role in maintaining structural integrity.

在肌肉纤维的研究中，定向核 oriented nuclei 在维持结构完整性方面起着至关重要的作用。

作文

In recent years, the study of materials science has brought to light various fascinating phenomena that occur at the microscopic level. One such phenomenon is the formation of oriented nuclei (取向核), which plays a crucial role in determining the properties of crystalline materials. Understanding how oriented nuclei (取向核) are formed and their implications can greatly enhance our ability to engineer materials for specific applications.The term oriented nuclei (取向核) refers to the initial stages of crystal growth where small clusters of atoms or molecules align in a specific orientation. This alignment is significant because it affects how the material will grow and behave under different conditions. In many cases, the presence of oriented nuclei (取向核) leads to improved mechanical properties, such as increased strength and durability.One of the key factors influencing the formation of oriented nuclei (取向核) is temperature. As the temperature changes, the energy levels of the atoms within a material also shift. At higher temperatures, atoms have more kinetic energy, allowing them to move around more freely. However, as the temperature decreases, atoms begin to lose energy and start to settle into more stable configurations. This process often leads to the formation of oriented nuclei (取向核), which can serve as a foundation for further crystal growth.Another important aspect of oriented nuclei (取向核) is their relationship with impurities in a material. Impurities can disrupt the orderly arrangement of atoms, which can hinder the formation of oriented nuclei (取向核). However, in some cases, specific impurities can actually promote the formation of these nuclei by providing additional sites for atoms to cluster together. This dual role of impurities highlights the complexity of material behavior at the atomic level.The significance of oriented nuclei (取向核) extends beyond just the realm of materials science. In biological systems, for example, the concept of oriented nuclei (取向核) can be observed in the way cells organize themselves during development. Cells often orient their internal structures in a specific manner to achieve functional efficiency, much like how oriented nuclei (取向核) dictate the growth of crystals.Moreover, understanding oriented nuclei (取向核) can lead to advancements in technology. For instance, in the field of semiconductor manufacturing, controlling the formation of oriented nuclei (取向核) can significantly impact the performance of electronic devices. By optimizing the conditions under which these nuclei form, engineers can create materials with desired electrical properties, paving the way for faster and more efficient electronic components.In conclusion, the study of oriented nuclei (取向核) opens up a wealth of knowledge about material properties and behaviors. By delving deeper into this concept, researchers can unlock new possibilities for material design and application. Whether in the context of engineering, biology, or technology, the implications of oriented nuclei (取向核) are profound and far-reaching. As we continue to explore this fascinating area of study, we may find ourselves on the brink of breakthroughs that could transform industries and improve our daily lives.