glass insulator
简明释义
玻璃绝缘子
英英释义
例句
1.Engineers recommend using glass insulators 玻璃绝缘子 for high-voltage transmission lines due to their durability.
工程师建议在高压输电线路中使用玻璃绝缘子 玻璃绝缘子,因为它们耐用。
2.To ensure safety, the power lines were supported by glass insulators 玻璃绝缘子 that can withstand harsh weather conditions.
为了确保安全,电力线由能够承受恶劣天气条件的玻璃绝缘子 玻璃绝缘子支撑。
3.The old telephone poles were topped with a glass insulator 玻璃绝缘子 to prevent electrical leakage.
旧电话杆顶部装有一个玻璃绝缘子 玻璃绝缘子,以防止电流泄漏。
4.During the storm, we noticed that one of the glass insulators 玻璃绝缘子 had cracked, which could lead to power outages.
在暴风雨期间,我们注意到一个玻璃绝缘子 玻璃绝缘子破裂,这可能导致停电。
5.The antique shop displayed a collection of vintage glass insulators 玻璃绝缘子 that collectors find fascinating.
古玩店展示了一系列复古的玻璃绝缘子 玻璃绝缘子,让收藏家们感到着迷。
作文
In the world of electrical engineering, the importance of insulators cannot be overstated. Among various types of insulators, the glass insulator (玻璃绝缘子) stands out due to its unique properties and historical significance. This essay aims to explore the characteristics, applications, and advantages of glass insulator (玻璃绝缘子) in the electrical industry.Firstly, let's discuss what a glass insulator (玻璃绝缘子) is. It is an electrical insulator made from glass, which is used to support and separate electrical conductors without allowing current to pass through. The primary function of a glass insulator (玻璃绝缘子) is to prevent the flow of electricity between the conductor and the supporting structure, such as a pole or tower. This is crucial for maintaining safety and efficiency in electrical systems.One of the most significant advantages of glass insulator (玻璃绝缘子) is its durability. Glass is resistant to weathering, UV radiation, and extreme temperatures, making it an ideal material for outdoor applications. Unlike porcelain or plastic insulators, glass does not degrade over time, ensuring a longer lifespan and reduced maintenance costs. Additionally, glass insulator (玻璃绝缘子) can withstand high voltage levels, making them suitable for use in high-voltage transmission lines.Furthermore, the transparency of glass allows for easy inspection. Operators can visually check for any defects or contamination on the surface of a glass insulator (玻璃绝缘子), which is essential for ensuring reliability in electrical systems. In contrast, other materials may require more invasive inspection methods, increasing downtime and maintenance costs.The application of glass insulator (玻璃绝缘子) extends beyond just overhead power lines. They are also widely used in substations, communication towers, and railway systems. In substations, glass insulator (玻璃绝缘子) helps to support transformers and switchgear, ensuring that high voltages do not leak into the ground or surrounding equipment. In communication towers, these insulators provide stability for antennas while preventing electrical interference, thereby maintaining signal clarity.Moreover, the aesthetic appeal of glass insulator (玻璃绝缘子) should not be overlooked. Many people appreciate the vintage look of old glass insulators, which were commonly used in the early days of electrical transmission. Today, they are often collected as antiques or used in decorative projects, showcasing their versatility beyond functionality.In recent years, there has been a growing interest in sustainable materials, and glass fits this criterion well. Being recyclable, glass insulator (玻璃绝缘子) can be repurposed at the end of its life cycle, reducing waste and environmental impact. This aligns with the global push towards greener technologies and practices in the electrical industry.In conclusion, the glass insulator (玻璃绝缘子) plays a vital role in modern electrical systems due to its durability, ease of inspection, and wide range of applications. Its historical significance and aesthetic value further enhance its appeal. As we continue to innovate and improve our electrical infrastructure, the glass insulator (玻璃绝缘子) will undoubtedly remain an essential component, bridging the gap between past and future technologies.
在电气工程的世界中,绝缘体的重要性不容小觑。在各种类型的绝缘体中,玻璃绝缘子(glass insulator)由于其独特的特性和历史意义而脱颖而出。本文旨在探讨玻璃绝缘子(glass insulator)在电气行业中的特征、应用和优势。首先,让我们讨论一下什么是玻璃绝缘子(glass insulator)。它是一种由玻璃制成的电绝缘体,用于支撑和分隔电导体,而不允许电流通过。玻璃绝缘子(glass insulator)的主要功能是防止电流从导体流向支撑结构,如电杆或塔。这对于保持电气系统的安全性和效率至关重要。玻璃绝缘子(glass insulator)最显著的优点之一是其耐用性。玻璃对天气、紫外线辐射和极端温度有很强的抵抗力,使其成为户外应用的理想材料。与瓷器或塑料绝缘体不同,玻璃不会随着时间的推移而降解,从而确保更长的使用寿命和降低维护成本。此外,玻璃绝缘子(glass insulator)能够承受高电压,使其适用于高压输电线路。此外,玻璃的透明性使得检查变得容易。操作员可以直观地检查玻璃绝缘子(glass insulator)表面是否存在任何缺陷或污染,这对于确保电气系统的可靠性至关重要。相比之下,其他材料可能需要更具侵入性的检查方法,从而增加停机时间和维护成本。玻璃绝缘子(glass insulator)的应用不仅限于架空电力线路。它们还广泛用于变电站、通信塔和铁路系统。在变电站中,玻璃绝缘子(glass insulator)帮助支撑变压器和开关设备,确保高电压不会泄漏到地面或周围设备中。在通信塔中,这些绝缘体为天线提供稳定性,同时防止电气干扰,从而保持信号清晰。此外,玻璃绝缘子(glass insulator)的美学吸引力也不容忽视。许多人欣赏老式玻璃绝缘子的复古外观,这在电力传输的早期阶段被广泛使用。如今,它们常常作为古董收藏或用于装饰项目,展示了其超越功能性的多样性。近年来,对可持续材料的兴趣日益增长,而玻璃正好符合这一标准。作为可回收材料,玻璃绝缘子(glass insulator)在其使用寿命结束时可以被再利用,从而减少废物和环境影响。这与全球推动电气行业绿色技术和实践的趋势相一致。总之,玻璃绝缘子(glass insulator)在现代电气系统中发挥着至关重要的作用,因其耐用性、易于检查和广泛的应用而备受关注。其历史意义和美学价值进一步增强了其吸引力。随着我们不断创新和改善电气基础设施,玻璃绝缘子(glass insulator)无疑将继续作为一个重要组成部分,架起过去与未来技术之间的桥梁。
