absorbing layer
简明释义
吸收层
英英释义
A layer that absorbs energy, such as light or sound, preventing it from passing through or reflecting back. | 一种吸收能量的层,例如光或声音,防止其穿透或反射回去。 |
例句
1.In the design of the building, the architects incorporated an absorbing layer 吸音层 to improve acoustics in the concert hall.
在建筑设计中,建筑师加入了一个吸音层 absorbing layer,以改善音乐厅的音响效果。
2.The absorbing layer 吸音层 in the mattress helps to minimize motion transfer between sleeping partners.
床垫中的吸音层 absorbing layer有助于减少睡眠伴侣之间的运动传递。
3.To enhance thermal comfort, the walls were fitted with an absorbing layer 隔热层 that retains heat.
为了增强热舒适性,墙壁安装了一个隔热层 absorbing layer,以保持热量。
4.The soundproofing material includes an absorbing layer 吸音层 to reduce noise levels in the studio.
这种隔音材料包含一个吸音层 absorbing layer,以降低录音室的噪音水平。
5.The new headphones feature an absorbing layer 吸音层 that blocks out external sounds for a better listening experience.
新款耳机采用了一个吸音层 absorbing layer,可以阻挡外部声音,从而提供更好的听觉体验。
作文
In the realm of environmental science, the concept of an absorbing layer is crucial for understanding how different materials interact with energy and pollutants. An absorbing layer refers to a material or substance that captures and retains energy, sound, or pollutants from the environment. This phenomenon can be observed in various contexts, including acoustics, thermal insulation, and pollution control. For instance, in urban areas, certain building materials are designed to serve as effective absorbing layers to minimize noise pollution from busy streets. These materials can absorb sound waves, preventing them from reflecting off surfaces and creating an echoing effect that could be disruptive to residents. Moreover, in the field of thermal management, absorbing layers play a vital role in enhancing energy efficiency. Solar panels, for example, often incorporate materials that act as absorbing layers to capture sunlight and convert it into usable energy. The effectiveness of these layers is determined by their ability to absorb specific wavelengths of light, which is critical for maximizing energy production. By optimizing the properties of these absorbing layers, engineers can significantly improve the performance of solar energy systems.In addition to their practical applications, absorbing layers also have significant implications for environmental sustainability. In efforts to combat air pollution, researchers are exploring the use of absorbing layers made from natural materials that can filter harmful substances from the air. For example, certain plants and bio-based materials can act as absorbing layers that trap particulate matter and other pollutants, thereby improving air quality in urban settings. This innovative approach not only enhances public health but also contributes to the overall well-being of ecosystems.Furthermore, the study of absorbing layers extends into the realm of art and design. Artists and architects often utilize materials with absorbing layers to create spaces that are aesthetically pleasing while also functional. For instance, in concert halls, the careful selection of materials with absorbing layers can enhance the acoustics of the space, ensuring that sound is evenly distributed and pleasant to the audience. This intersection of science and art highlights the versatility of absorbing layers in various fields.In conclusion, the concept of an absorbing layer encompasses a wide range of applications and significance across different disciplines. From reducing noise pollution to enhancing energy efficiency and improving air quality, absorbing layers are integral to our understanding of environmental interactions. As technology advances, the exploration of new materials and methods for creating effective absorbing layers will continue to play a pivotal role in sustainable development and innovation. It is essential for future generations to recognize the importance of these layers in fostering a healthier planet and a more harmonious living environment.
在环境科学领域,吸收层的概念对于理解不同材料如何与能量和污染物相互作用至关重要。吸收层指的是一种捕获并保留来自环境的能量、声音或污染物的材料或物质。这种现象可以在多种背景下观察到,包括声学、热绝缘和污染控制。例如,在城市地区,某些建筑材料被设计为有效的吸收层,以最小化来自繁忙街道的噪音污染。这些材料可以吸收声波,防止声波反射到表面并产生回声效应,从而对居民造成干扰。此外,在热管理领域,吸收层在提高能效方面也发挥着至关重要的作用。例如,太阳能电池板通常采用能够充当吸收层的材料,以捕获阳光并将其转化为可用能量。这些层的有效性取决于它们吸收特定波长光线的能力,这对于最大化能量生产至关重要。通过优化这些吸收层的特性,工程师可以显著提高太阳能系统的性能。除了实际应用,吸收层对环境可持续性也有重要影响。在应对空气污染的努力中,研究人员正在探索使用天然材料制成的吸收层,以过滤空气中的有害物质。例如,某些植物和生物基材料可以作为吸收层,捕获颗粒物和其他污染物,从而改善城市环境的空气质量。这种创新的方法不仅提高了公共健康,还促进了生态系统的整体福祉。此外,吸收层的研究还延伸到艺术和设计领域。艺术家和建筑师常常利用具有吸收层的材料来创造既美观又实用的空间。例如,在音乐厅中,精心选择具有吸收层的材料可以增强空间的声学效果,确保声音均匀分布并让观众愉悦。这种科学与艺术的交汇点突显了吸收层在各个领域的多功能性。总之,吸收层的概念涵盖了不同学科中广泛的应用和重要性。从减少噪音污染到提高能效和改善空气质量,吸收层是我们理解环境相互作用的核心。随着技术的进步,探索新材料和方法以创建有效的吸收层将继续在可持续发展和创新中发挥关键作用。未来几代人必须认识到这些层在促进更健康的星球和更和谐的生活环境中的重要性。
相关单词
