gas filled

简明释义

充气的

英英释义

例句

1.We need to check if the gas filled tires are properly inflated.

我们需要检查一下这些充气的轮胎是否充气正常。

2.The gas filled balloon floated high into the sky.

这个充气的气球飘到了高空。

3.The gas filled light bulb is more efficient than traditional ones.

这种充气的灯泡比传统灯泡更高效。

4.During the winter, the gas filled heater keeps the room warm.

冬天时，充气的加热器可以让房间保持温暖。

5.The gas filled chamber in the experiment allows for better pressure control.

实验中的充气的室可以更好地控制压力。

作文

In the world of science and engineering, the term gas filled refers to a state where a container or space is occupied by a gas. This concept is crucial in various applications, from everyday items like light bulbs to advanced technologies such as gas-filled insulation materials. Understanding how gas filled environments function can provide insights into their practical uses and benefits.One common example of a gas filled application is the incandescent light bulb. These bulbs contain a tungsten filament that heats up and produces light when electricity passes through it. To enhance the bulb's efficiency and lifespan, the interior is often gas filled with inert gases like argon or nitrogen. These gases prevent the tungsten filament from oxidizing and burning out quickly, allowing the bulb to last longer than it would in a vacuum or air-filled environment.Another significant use of gas filled technology is in the construction industry, particularly in the production of energy-efficient windows. Double-glazed windows are commonly gas filled with argon or krypton gas between the two panes of glass. This gas filled layer acts as an insulator, reducing heat transfer and enhancing energy efficiency in homes and buildings. By minimizing heat loss in winter and keeping interiors cooler in summer, gas filled windows contribute to lower energy bills and a reduced carbon footprint.Additionally, gas filled systems are utilized in various scientific instruments. For instance, gas-filled detectors are essential in nuclear and particle physics experiments. These detectors rely on the ionization of the gas when particles pass through, allowing scientists to measure radiation levels and understand fundamental physical processes. The controlled environment of a gas filled chamber ensures accurate readings and reliable data collection.The advantages of using gas filled materials extend to the automotive industry as well. Many modern vehicles are equipped with gas filled shock absorbers that contain nitrogen gas. These shock absorbers provide better handling and ride comfort by effectively managing the compression and rebound of the suspension system. The gas filled design allows for consistent performance, even under varying temperatures and driving conditions.Moreover, the use of gas filled packaging has become increasingly popular in the food industry. Modified atmosphere packaging (MAP) involves replacing the air inside a package with a specific blend of gases, such as carbon dioxide and nitrogen. This gas filled environment helps preserve the freshness of food products, extending their shelf life and reducing waste. By controlling the atmosphere around perishable goods, manufacturers can ensure that consumers receive high-quality products.In conclusion, the concept of gas filled environments plays a vital role in numerous fields, including lighting, construction, science, automotive, and food preservation. By understanding the significance of gas filled technologies, we can appreciate their contributions to efficiency, longevity, and sustainability in our daily lives. As innovation continues to advance, the applications of gas filled solutions are likely to expand, leading to even more benefits for society as a whole.

在科学和工程领域，术语气体充填指的是容器或空间被气体占据的状态。这个概念在各种应用中至关重要，从日常物品如灯泡到先进技术如气体充填绝缘材料。理解气体充填环境如何运作，可以为其实际用途和好处提供深刻见解。一个常见的气体充填应用实例是白炽灯泡。这些灯泡内部含有一根钨丝，当电流通过时，它会加热并产生光。为了提高灯泡的效率和使用寿命，内部通常会用惰性气体如氩气或氮气进行气体充填。这些气体可以防止钨丝氧化和快速烧坏，使灯泡的使用寿命比在真空或空气充填环境中更长。气体充填技术的另一个重要用途是在建筑行业，特别是在节能窗户的生产中。双层玻璃窗通常在两层玻璃之间用氩气或氪气进行气体充填。这层气体充填的气体作为绝缘体，减少热传递，提高家庭和建筑的能源效率。通过最小化冬季的热损失和夏季保持室内凉爽，气体充填窗户有助于降低能源账单和减少碳足迹。此外，气体充填系统在各种科学仪器中也得到了应用。例如，气体充填探测器在核物理和粒子物理实验中是必不可少的。这些探测器依赖于粒子通过时气体的电离，允许科学家测量辐射水平并理解基本物理过程。气体充填腔体的受控环境确保了准确的读数和可靠的数据收集。使用气体充填材料的优势还扩展到汽车工业。许多现代车辆配备了氮气充填的减震器。这些减震器通过有效管理悬挂系统的压缩和反弹，提供更好的操控性和乘坐舒适性。气体充填设计使其在不同温度和驾驶条件下都能保持一致的性能。此外，气体充填包装在食品行业中变得越来越流行。改良气氛包装（MAP）涉及用特定混合气体（如二氧化碳和氮气）替换包装内的空气。这种气体充填环境有助于保持食品产品的新鲜度，延长其保质期并减少浪费。通过控制易腐食品周围的气氛，制造商可以确保消费者获得高质量的产品。总之，气体充填环境的概念在照明、建筑、科学、汽车和食品保存等多个领域发挥着重要作用。通过理解气体充填技术的意义，我们可以欣赏它们对我们日常生活中效率、耐用性和可持续性的贡献。随着创新的不断推进，气体充填解决方案的应用可能会扩大，为整个社会带来更多好处。