lamella
简明释义
n. 薄板;薄片;薄层
复 数 l a m e l l a e 或 l a m e l l a s
英英释义
A thin layer or plate of material, often used in biological contexts to refer to structures such as membranes or tissues. | 一层薄薄的材料,通常用于生物学上下文中,指代如膜或组织等结构。 |
单词用法
叶子的薄层 | |
薄层结构 | |
生物学中的薄层 | |
薄层体 |
同义词
| 层 | 层状结构在过滤过程中至关重要。 | ||
| 板 | 在生物学中,薄片可以指一层薄薄的组织。 | ||
| 薄片 | 鳃的板由许多薄片组成。 | ||
| 膜 | 表面上的水膜产生了薄层效应。 |
反义词
| 块 | 材料的块太重,无法举起。 | ||
| 大质量 | 物体的质量影响了它的引力。 |
例句
1.The results show that structures of plasma sprayed coatings are lamella in shape, mechanical bond in interface regions.
结果证明 :在所定的工艺参数下 ,等离子喷涂层组织呈层片状 ,层间为机械结合界面 ;
2.As a contrast to the main facade, the rear side of the building is stylishly more restrained with a horizontal lamella facade.
作为与主立面的对比,建筑物的后侧是更加时尚的水平薄片外立面。
3.As the rolling reduction increases, the proportion of fine lamella increases.
精细片层区域的比例随着轧制压下率的提高而增大。
4.In both woods, chlorine reacted very rapidly with lignin but the extent of reaction was greater in the secondary wall than in the cell corner middle lamella.
无论是云杉或是桦木,细胞角处的胞间层或次生壁的木素都极易和氯反应。
5.These lamella appear to be of graphitic nature since Raman spectra show a sharp graphite peak at about 1585 cm-1 when lamellae are present.
这些薄层好象具有石墨性质,因为当薄层出现时,拉曼光谱在大约1585cm - 1处显示出一个锐利的石墨峰。
6.Lamella domes and vaults consist of inter-connecting steel or aluminium units.
薄片圆屋顶和地下室由连结之间的钢或者铝单位组成。
7.Then, the corpuscles were released to the parenchymal tissues and gradually appeared to be concentric lamella or an empty cavity during the metabolic process .
然后,小体释放到实质组织,随着代谢的消耗逐渐呈同心圆样的板层结构和空泡结构。
8.The densely-distributed cilias exist in sensory areas through scanning electron microscope and Secretory vesicle in the whole surface of olfactory lamella.
扫描电镜下,可见感觉区有密集分布的纤毛,分泌小泡在感觉区和非感觉区的表面均有存在。
9.The structure of the leaf is composed of several layers, including a thin lamella 薄层 that helps in photosynthesis.
叶子的结构由几层组成,包括一层薄薄的lamella 薄层,有助于光合作用。
10.The lamella 薄层 in the fungal structure plays a key role in reproduction.
真菌结构中的lamella 薄层 在繁殖中起着关键作用。
11.During the experiment, we observed the lamella 薄层 formation in the petri dish.
在实验过程中,我们观察到培养皿中形成了lamella 薄层。
12.In biology, the lamella 薄层 is crucial for understanding cell organization.
在生物学中,lamella 薄层 对理解细胞组织至关重要。
13.The lamella 薄层 of the gills in fish allows for efficient gas exchange.
鱼类鳃的lamella 薄层 允许高效的气体交换。
作文
In the realm of biology, the term lamella (薄层) holds significant importance as it refers to a thin layer or plate-like structure found in various organisms. One of the most notable examples of lamella (薄层) is seen in the gills of fish, where these structures play a crucial role in respiration. The gills are composed of numerous lamellae (薄层), which increase the surface area available for gas exchange, allowing fish to efficiently absorb oxygen from water and expel carbon dioxide. This adaptation is vital for their survival, especially in aquatic environments where oxygen levels can fluctuate dramatically.Furthermore, lamella (薄层) structures are not limited to aquatic life; they are also present in plants. In the leaves of many plants, chloroplasts are arranged in layers, forming lamellae (薄层) that maximize light absorption for photosynthesis. This process is essential for converting sunlight into energy, highlighting the significance of lamella (薄层) in sustaining life on Earth.In addition to biology, the concept of lamella (薄层) extends into materials science and engineering. For instance, in the study of composite materials, lamellae (薄层) can refer to the thin layers that comprise these materials, which can enhance their strength and durability. Understanding how these lamellae (薄层) interact at a molecular level helps scientists and engineers design better materials for a variety of applications, from aerospace to construction.Moreover, the architectural world also utilizes the idea of lamella (薄层) in design principles. The concept of layering can be observed in modern architecture, where lamellae (薄层) are employed to create visually appealing structures that also serve functional purposes, such as improving ventilation and natural lighting. This innovative approach showcases how the principle of lamella (薄层) transcends disciplines, influencing both natural and man-made environments.In conclusion, the term lamella (薄层) encapsulates a variety of meanings across different fields, from biology to materials science and architecture. Its fundamental nature as a thin layer or plate-like structure underscores its versatility and importance in understanding the complexities of both living organisms and human creations. As we continue to explore the intricacies of nature and technology, the study of lamellae (薄层) will undoubtedly remain a vital area of research, revealing more about the interconnectedness of life and the innovations that arise from it.
在生物学领域,术语lamella(薄层)具有重要意义,因为它指的是在各种生物中发现的薄层或板状结构。最显著的例子之一是在鱼类的鳃中,这些结构在呼吸中发挥着至关重要的作用。鳃由众多的lamellae(薄层)组成,增加了可用于气体交换的表面积,使鱼能够高效地从水中吸收氧气并排出二氧化碳。这种适应性对它们的生存至关重要,尤其是在氧气水平可能剧烈波动的水生环境中。此外,lamella(薄层)结构并不限于水生生物;它们在植物中也存在。在许多植物的叶子中,叶绿体以层状排列,形成lamellae(薄层),最大限度地吸收光线进行光合作用。这个过程对于将阳光转化为能量至关重要,突显了lamella(薄层)在维持地球生命中的重要性。除了生物学,lamella(薄层)的概念还扩展到材料科学和工程学。例如,在复合材料的研究中,lamellae(薄层)可以指构成这些材料的薄层,它们可以增强材料的强度和耐久性。理解这些lamellae(薄层)在分子层面的相互作用有助于科学家和工程师设计出更好的材料,应用于航空航天、建筑等多个领域。此外,建筑界也利用lamella(薄层)这一理念来进行设计原则。分层的概念可以在现代建筑中观察到,其中使用lamellae(薄层)来创造视觉上吸引人的结构,同时也服务于功能目的,例如改善通风和自然采光。这种创新的方法展示了lamella(薄层)原则如何跨越学科,影响自然环境和人造环境。总之,术语lamella(薄层)在不同领域中包含多种含义,从生物学到材料科学再到建筑。作为薄层或板状结构的基本特性凸显了其多功能性和在理解生物体和人类创造物复杂性中的重要性。随着我们继续探索自然和技术的复杂性,lamellae(薄层)的研究无疑将仍然是一个重要的研究领域,揭示生命的相互联系及由此产生的创新。
