interlayer
简明释义
英[/ˈɪntərˌleɪər/]美[/ˈɪntərˌleɪər/]
n. 夹层,隔层
英英释义
A layer that exists between two other layers, often serving a specific function or purpose. | 位于两个其他层之间的层,通常具有特定的功能或目的。 |
单词用法
同义词
反义词
外层 | 蛋糕的外层用糖霜装饰。 | ||
表层 | 地球的表层富含营养。 |
例句
1.To improve the interlayer bonding, increase physical indexes on the layers is one of the subjects for speeding placement.
改善层间结合,提高层面上的物理力学指标,是目前快速筑坝的课题之一。
2.Therefore the sliding stability of dam base along weak interlayer is concerned.
因此坝基沿软弱夹层结构面的抗滑稳定性为人们所关注。
3.Two uranium mineralization types have been recognized, namely the interlayer oxidation zone type and the phreatic oxidation type.
克鲁伦盆地存在潜水氧化带型和潜水层间氧化带型两种铀矿化类型。
4.In the test, a homogeneous slope model with soft interlayer was made.
试验中,模拟了一含软弱夹层的均质边坡模型。
5.The uranium mineralization of interlayer oxidization zones is closely associated with hydrogeochemical conditions.
层间氧化带铀矿床的形成与水文地球化学条件密切相关。
6.Simulated soil column experiments were done to study the mechanisms of water reserved by sand interlayer in the profile.
探讨土壤剖面中砂质夹层的水分行为,试验采用模拟土柱进行研究。
7.The vibration behaviour of sandwich structure with spring interlayer is studied.
研究了具有弹性夹层的层板结构的振动特性。
8.Twelve, the second layer, third layer, romantic care! Fourth layer, interlayer, sweet warm! I wish you all a good mood every day!
第二层,关怀!第三层,浪漫!第四层,温馨!中间夹层,甜蜜!祝你天天都有一份好心情!
9.The engineers decided to use a special type of adhesive for the interlayer 中间层 in the composite material.
工程师们决定在复合材料的中间层使用一种特殊类型的粘合剂。
10.The interlayer 中间层 in the glass provides sound insulation and enhances safety.
玻璃中的中间层提供了隔音效果并增强了安全性。
11.The architectural design features an interlayer 中间层 that allows natural light to filter through.
建筑设计采用了一个允许自然光透过的中间层。
12.In solar panels, the interlayer 中间层 helps improve energy efficiency by reducing heat loss.
在太阳能电池板中,中间层通过减少热损失来提高能效。
13.For better durability, the product includes a reinforced interlayer 中间层 made of high-strength materials.
为了更好的耐用性,该产品包括一个由高强度材料制成的加固中间层。
作文
In modern construction and material science, the term interlayer refers to a layer that exists between two other layers, serving various purposes depending on the context. For instance, in the field of architecture, an interlayer can be crucial in enhancing the structural integrity of a building. It acts as a barrier that can absorb stress and reduce the risk of cracking or failure in the primary materials. This is particularly important in areas prone to seismic activity, where buildings must withstand significant forces. The use of an interlayer can also improve thermal insulation and energy efficiency, making buildings more sustainable in the long run.In the realm of electronics, interlayers are often used in the manufacturing of semiconductors and other devices. These layers can help in managing electrical properties and ensuring proper functioning of the components. For example, a thin interlayer of a specific material might be inserted between two conductive layers to enhance conductivity or to prevent unwanted reactions between materials. This application of interlayers is vital for the miniaturization of electronic devices, allowing for more compact and efficient designs without sacrificing performance.Moreover, in the field of optics, interlayers play a significant role in improving the quality of optical devices such as lenses and glasses. An interlayer can be used to filter certain wavelengths of light, enhancing clarity and reducing glare. This is especially beneficial in high-performance applications like photography or scientific instruments, where precision is paramount. By selecting appropriate materials for the interlayer, manufacturers can tailor the optical properties of their products to meet specific needs.The importance of interlayers extends beyond just their physical properties; they also contribute to the overall aesthetic and functional aspects of various products. In the automotive industry, for instance, interlayers are often used in windshields to provide safety features. Laminated glass, which consists of layers of glass and a plastic interlayer, not only enhances strength but also prevents shattering upon impact, thereby protecting passengers in the event of an accident. This innovation has saved countless lives and continues to evolve with advancements in material technology.As we delve deeper into the world of materials science and engineering, the significance of interlayers becomes increasingly evident. They serve as essential components that bridge the gap between different materials, enhancing functionality and performance. Whether in construction, electronics, optics, or automotive applications, understanding the role of interlayers can lead to better design choices and improved product outcomes. As technology progresses, it is likely that the study and application of interlayers will continue to expand, opening new avenues for innovation and creativity in various fields.In conclusion, the concept of the interlayer is fundamental in many industries, providing solutions that enhance performance, safety, and sustainability. By recognizing the multifaceted roles that interlayers play, we can appreciate their contributions to modern technology and design. As we move forward, continued research and development in this area will undoubtedly yield even more exciting possibilities, making interlayers a key focus for engineers and designers alike.
在现代建筑和材料科学中,术语interlayer指的是存在于两层材料之间的层,根据上下文的不同,其用途各异。例如,在建筑领域,interlayer对增强建筑物的结构完整性至关重要。它充当一个屏障,可以吸收应力,减少主要材料开裂或失效的风险。这在地震活动频繁的地区尤其重要,因为建筑物必须承受显著的力量。使用interlayer还可以改善热绝缘和能效,从而使建筑在长期内更加可持续。在电子领域,interlayers通常用于半导体和其他设备的制造。这些层可以帮助管理电气特性,确保组件的正常运行。例如,可能会在两个导电层之间插入一层特定材料的薄interlayer,以增强导电性或防止材料之间的不良反应。interlayers的这种应用对于电子设备的小型化至关重要,使得设计更加紧凑高效,而不牺牲性能。此外,在光学领域,interlayers在提高光学设备(例如镜头和眼镜)的质量方面发挥着重要作用。interlayer可以用于过滤某些波长的光,从而增强清晰度并减少眩光。这在摄影或科学仪器等高性能应用中尤其有益,因为精确性至关重要。通过为interlayer选择合适的材料,制造商可以根据特定需求量身定制产品的光学特性。interlayers的重要性不仅限于其物理特性;它们还对各种产品的整体美学和功能方面做出贡献。在汽车工业中,interlayers通常用于挡风玻璃,以提供安全功能。层压玻璃由多层玻璃和塑料interlayer组成,不仅增强了强度,还防止在冲击下破碎,从而保护乘客在事故发生时的安全。这项创新拯救了无数生命,并随着材料技术的进步而不断发展。随着我们深入材料科学和工程的世界,interlayers的重要性变得越来越明显。它们作为连接不同材料的基本组件,增强了功能和性能。无论是在建筑、电子、光学还是汽车应用中,理解interlayers的作用都可以导致更好的设计选择和改进的产品结果。随着技术的发展,研究和应用interlayers的领域可能会继续扩展,为各个领域的创新和创造力开辟新的途径。总之,interlayer的概念在许多行业中是基础性的,提供了增强性能、安全性和可持续性的解决方案。通过认识到interlayers所扮演的多面角色,我们可以欣赏它们对现代技术和设计的贡献。随着我们向前迈进,在这一领域的持续研究和发展无疑会带来更多令人兴奋的可能性,使得interlayers成为工程师和设计师共同关注的关键焦点。