lamellar
简明释义
adj. 薄片状的,薄层状的
英英释义
与薄层或薄片的形状有关或具有这种形状。 | |
Describing a structure that is composed of or arranged in laminae. | 描述一种由薄层组成或以薄层排列的结构。 |
单词用法
层状结构;片状组织 |
同义词
| 分层的 | 这个地质构造由分层沉积物组成。 | ||
| 分层的 | Stratified sampling was used to ensure representation from all groups. | 使用了分层抽样以确保所有群体的代表性。 | |
| 层状的 | 层状结构提供了强度和灵活性。 |
反义词
| 非层状的 | Non-lamellar structures can be found in certain types of glass. | 某些类型的玻璃中可以找到非层状结构。 | |
| 无定形的 | Amorphous materials do not have a defined crystalline structure. | 无定形材料没有明确的晶体结构。 |
例句
1.Diffusion characteristics of copper in lamellar and columnar nickel deposit are also determined.
并分析了铜在柱状和块状镍镀层中的扩散系数。
2.An anticorrosive coating was prepared with lamellar zinc particles as the sacrificial anode material and epoxy resin as the binder.
以鳞片状锌粉为牺牲阳极材料,环氧树脂为成膜物质,制备了鳞片状锌粉防腐蚀涂料。
3.To investigate the effect of gallium on the bone lamellar structure of osteoporosis.
探讨镓盐对大鼠骨质疏松骨组织板层结构的影响。
4.The protofibril may have completed lamellar crystal.
原纤维可能已经完成了层状晶体。
5.All eutectics do not grow to produce lamellar structures.
并非所有的共晶体都生长成层片状结构。
6.The arch rests on 12 pillars, wooden lamellar ribs, which cling to the walls and stride heavily on solid concrete consoles.
拱顶内有层层薄片,附着在墙上,厚重地横跨在坚实的水泥神坛,下由12根立柱支撑。
7.In the study of fish gills, researchers noted that the lamellar 层状的 arrangement increases surface area for gas exchange.
在鱼鳃的研究中,研究人员注意到层状的排列增加了气体交换的表面积。
8.The artist used a lamellar 层状的 technique to create depth in her painting.
艺术家使用层状的技巧在她的画作中创造深度。
9.The structure of the bone is lamellar 层状的, providing strength and flexibility.
骨骼的结构是层状的,提供了强度和灵活性。
10.The lamellar 层状的 structure of the mineral allows it to be split easily into thin sheets.
这种矿物的层状的结构使其可以轻易地分裂成薄片。
11.The lamellar 层状的 flow of the liquid in the experiment was crucial for accurate measurements.
实验中液体的层状的流动对准确测量至关重要。
作文
In the world of science, particularly in materials science and biology, the term lamellar (层状的) is frequently used to describe structures that are organized in thin, plate-like layers. This concept can be observed in various natural and synthetic materials, where the lamellar (层状的) arrangement contributes significantly to their properties and functions. For instance, in biological systems, the membranes of cells are often composed of lamellar (层状的) structures, which play a crucial role in maintaining the integrity and functionality of the cell. These membranes are made up of phospholipid bilayers that exhibit a lamellar (层状的) organization, allowing selective permeability that is essential for cellular processes such as nutrient uptake and waste removal.Moreover, in the field of materials science, lamellar (层状的) structures can be found in composite materials, where different layers of materials are combined to enhance mechanical strength and durability. For example, fiberglass, which is widely used in construction and automotive industries, consists of lamellar (层状的) layers of glass fibers embedded in a resin matrix. This lamellar (层状的) configuration not only provides lightweight yet strong properties but also improves resistance to environmental factors such as moisture and temperature fluctuations.The significance of lamellar (层状的) structures extends beyond just physical properties; they also influence thermal and electrical conductivity. In layered materials like graphene, the lamellar (层状的) structure allows for exceptional electrical conductivity, making it a promising material for future electronic devices. Researchers are exploring ways to manipulate these lamellar (层状的) structures at the nanoscale to create advanced materials with tailored properties for specific applications.In geology, the term lamellar (层状的) is also relevant when describing sedimentary rocks, which often exhibit a lamellar (层状的) layering due to the deposition of sediments over time. These lamellar (层状的) patterns provide valuable insights into the geological history of an area, indicating changes in environmental conditions and the processes that formed the rock.Furthermore, in the culinary world, the concept of lamellar (层状的) can be observed in the preparation of certain dishes. For example, when making a classic French pastry like croissants, the dough is rolled and folded multiple times to create lamellar (层状的) layers of butter and dough. This technique results in a flaky texture that is highly desirable in baked goods, showcasing how the principles of lamellar (层状的) structures can transcend scientific disciplines and find application in everyday life.In conclusion, the term lamellar (层状的) embodies a fundamental concept that resonates across various fields, from biology to materials science, geology, and even culinary arts. Understanding the implications of lamellar (层状的) structures allows us to appreciate the complexity and beauty of both natural and engineered systems. As research continues to evolve, the exploration of lamellar (层状的) arrangements will undoubtedly lead to innovative solutions and advancements in technology, health, and sustainability.
在科学界,特别是材料科学和生物学中,术语lamellar(层状的)常用于描述以薄片状层组织的结构。这一概念可以在各种自然和合成材料中观察到,其中lamellar(层状的)排列显著影响其特性和功能。例如,在生物系统中,细胞膜通常由lamellar(层状的)结构组成,这在维持细胞的完整性和功能方面起着至关重要的作用。这些膜由磷脂双层构成,展现出lamellar(层状的)组织,使得选择性通透性成为可能,这是细胞过程如营养物质摄取和废物去除所必需的。此外,在材料科学领域,lamellar(层状的)结构可以在复合材料中找到,其中不同层的材料结合在一起以增强机械强度和耐久性。例如,玻璃纤维广泛应用于建筑和汽车工业,由嵌入树脂基体的lamellar(层状的)玻璃纤维层组成。这种lamellar(层状的)配置不仅提供了轻便而坚固的特性,还改善了对环境因素如湿气和温度波动的抵抗力。lamellar(层状的)结构的重要性不仅限于物理特性;它们还影响热和电导率。在分层材料如石墨烯中,lamellar(层状的)结构允许卓越的电导率,使其成为未来电子设备的有前途的材料。研究人员正在探索在纳米尺度上操纵这些lamellar(层状的)结构,以创造具有特定应用所需特性的先进材料。在地质学中,术语lamellar(层状的)也与描述沉积岩相关,沉积岩通常由于时间的推移而表现出lamellar(层状的)层次。这些lamellar(层状的)模式提供了有关区域地质历史的宝贵见解,表明环境条件的变化以及形成岩石的过程。此外,在烹饪界,lamellar(层状的)概念也可以在某些菜肴的准备中观察到。例如,在制作经典法式糕点如可颂时,面团会多次滚动和折叠,以创建lamellar(层状的)黄油和面团层。这种技巧产生了一种酥脆的质地,在烘焙食品中非常受欢迎,展示了lamellar(层状的)结构原理如何跨越科学学科并在日常生活中找到应用。总之,术语lamellar(层状的)体现了一个基本概念,跨越生物学、材料科学、地质学甚至烹饪艺术等多个领域。理解lamellar(层状的)结构的含义使我们能够欣赏自然和工程系统的复杂性和美感。随着研究的不断发展,对lamellar(层状的)排列的探索无疑将导致技术、健康和可持续性方面的创新解决方案和进步。
