air cell

简明释义

空气室空气电池

英英释义

例句

1.A honeycomb structure contains numerous air cells 气室 that increase its strength while keeping it lightweight.

蜂窝结构包含众多的气室，在保持轻量的同时增加了其强度。

2.The air cells 气室 in the packaging material help protect fragile items during shipping.

包装材料中的气室有助于在运输过程中保护易碎物品。

3.The structure of a bird's wing includes many air cells 气室 that help it to be lightweight and efficient in flight.

鸟翼的结构包括许多气室，这帮助它轻便且高效地飞行。

4.In the design of this foam, the air cells 气室 provide excellent insulation properties.

在这种泡沫的设计中，气室提供了优良的绝缘性能。

5.The air cells 气室 in a mattress can provide better support and comfort for a good night's sleep.

床垫中的气室可以提供更好的支撑和舒适感，确保良好的睡眠。

作文

In the world of biology and materials science, the term air cell refers to a small, enclosed space filled with air, often found in various biological structures or synthetic materials. These air cells play a crucial role in providing buoyancy and insulation. For instance, in the context of bird anatomy, the respiratory system includes numerous air cells that enhance the efficiency of gas exchange, allowing birds to thrive at high altitudes where oxygen levels are lower. The presence of these air cells not only aids in respiration but also contributes to the lightweight structure of birds, enabling them to fly with ease.In the realm of materials science, air cells are integral to the development of certain types of insulation materials. For example, foam insulation is composed of numerous air cells that trap air within their structure. This trapped air serves as an excellent insulator, reducing heat transfer and improving energy efficiency in buildings. The effectiveness of these air cells in insulation applications highlights their importance in modern architecture and construction, where energy conservation is a significant concern.Moreover, air cells are utilized in various products, such as packaging materials. Products like bubble wrap contain numerous tiny air cells that provide cushioning and protection for fragile items during shipping. The design of these air cells allows them to absorb impact and prevent damage, making them essential for safe transportation of goods.In addition to their practical applications, air cells also have fascinating implications in research. Scientists study air cells to understand their properties and behaviors in different environments. For example, researchers investigate how air cells in biological systems respond to changes in pressure and temperature, which can lead to breakthroughs in fields such as medicine and environmental science.Furthermore, air cells are not limited to natural occurrences; they can also be engineered for specific purposes. Engineers design synthetic air cells to enhance the performance of various products, from athletic shoes to advanced aerospace materials. The ability to manipulate the size and arrangement of air cells allows for tailored solutions that meet specific needs, showcasing the versatility of this concept.In conclusion, the term air cell encompasses a wide range of meanings across different fields, from biology to materials science. Understanding the function and significance of air cells enhances our appreciation for the complexities of both natural and engineered systems. Whether it is in the context of avian physiology, insulation technology, or innovative product design, air cells demonstrate their importance in our daily lives and the advancement of science and technology. As we continue to explore the potential of air cells, we may uncover new applications and insights that will further enrich our understanding of the world around us.

在生物学和材料科学的世界中，术语气泡指的是一个小的、封闭的空间，里面充满了空气，通常在各种生物结构或合成材料中发现。这些气泡在提供浮力和绝缘方面发挥着至关重要的作用。例如，在鸟类解剖学的背景下，呼吸系统包括许多气泡，增强了气体交换的效率，使鸟类能够在氧气水平较低的高海拔地区生存。这些气泡的存在不仅有助于呼吸，还为鸟类提供了轻巧的结构，使它们能够轻松飞行。在材料科学领域，气泡是某些类型绝缘材料开发的核心。例如，泡沫绝缘由许多气泡组成，这些气泡在其结构中困住空气。这些被困的空气作为优秀的绝缘体，减少热传递，提高建筑物的能效。这些气泡在绝缘应用中的有效性突显了它们在现代建筑和施工中的重要性，而节能是一个重要的关注点。此外，气泡也用于各种产品，例如包装材料。像气泡膜这样的产品包含许多微小的气泡，为易碎物品在运输过程中提供缓冲和保护。这些气泡的设计使它们能够吸收冲击，防止损坏，因此在安全运输货物中至关重要。除了实用应用外，气泡在研究中也具有迷人的意义。科学家们研究气泡以了解它们在不同环境中的特性和行为。例如，研究人员调查生物系统中的气泡如何响应压力和温度的变化，这可能导致医学和环境科学等领域的突破。此外，气泡不仅限于自然现象；它们还可以被工程化以满足特定目的。工程师设计合成的气泡以增强各种产品的性能，从运动鞋到先进的航空材料。操控气泡的大小和排列方式使得能够针对特定需求提供量身定制的解决方案，展示了这一概念的多样性。总之，术语气泡涵盖了不同领域的广泛含义，从生物学到材料科学。理解气泡的功能和重要性增强了我们对自然和工程系统复杂性的欣赏。无论是在鸟类生理学、绝缘技术还是创新产品设计的背景下，气泡都展示了它们在我们日常生活和科学技术进步中的重要性。随着我们继续探索气泡的潜力，我们可能会发现新的应用和见解，进一步丰富我们对周围世界的理解。