electrotechnical porcelain

简明释义

电瓷

英英释义

例句

1.Manufacturers of electrical components often rely on electrotechnical porcelain for their durability.

电气组件的制造商通常依赖于电工瓷的耐用性。

2.The insulators made from electrotechnical porcelain are crucial for maintaining electrical safety.

由电工瓷制成的绝缘体对于维护电气安全至关重要。

3.Research shows that electrotechnical porcelain can withstand extreme temperatures without degrading.

研究表明，电工瓷能够承受极端温度而不降解。

4.In high-voltage applications, electrotechnical porcelain is preferred due to its excellent dielectric properties.

在高压应用中，由于其优良的介电特性，电工瓷是首选材料。

5.The use of electrotechnical porcelain in transformers helps to prevent electrical leakage.

在变压器中使用电工瓷有助于防止电气泄漏。

作文

The development of modern technology has led to significant advancements in various fields, including the production of materials used in electrical engineering. One such material that plays a crucial role in this sector is electrotechnical porcelain. This specialized type of porcelain is designed to withstand high voltages and extreme temperatures, making it an essential component in electrical insulators, capacitors, and other devices. Understanding the properties and applications of electrotechnical porcelain is vital for anyone involved in the electrical engineering field.电气陶瓷, or electrotechnical porcelain, is a ceramic material that exhibits excellent dielectric properties, meaning it can effectively resist the flow of electric current. This characteristic is particularly important in applications where insulation is required to prevent electrical leakage and ensure safety. For instance, electrotechnical porcelain is commonly used in the manufacturing of insulators that support overhead power lines. These insulators must be able to endure harsh environmental conditions while maintaining their insulating properties, and electrotechnical porcelain meets these demands exceptionally well.Another significant application of electrotechnical porcelain is in the production of capacitors. Capacitors are essential components in electronic circuits, as they store and release electrical energy. The use of electrotechnical porcelain in capacitors allows for higher voltage ratings and improved performance, which is crucial for modern electronic devices.In addition to its electrical properties, electrotechnical porcelain is also known for its mechanical strength and durability. This makes it suitable for use in various industrial applications, including switchgear and circuit breakers. These devices require materials that can withstand mechanical stress while providing reliable electrical insulation. The robust nature of electrotechnical porcelain ensures that it can handle these challenges effectively.Moreover, the production process of electrotechnical porcelain involves careful selection of raw materials and precise manufacturing techniques. The combination of alumina, silica, and other additives results in a material that not only exhibits excellent electrical properties but also has a high resistance to thermal shock. This quality is particularly beneficial in applications where sudden temperature changes occur, as it prevents cracking and failure of the material.As the demand for renewable energy sources continues to grow, the role of electrotechnical porcelain is becoming increasingly important. Wind turbines and solar panels require reliable insulation materials to ensure their efficient operation and longevity. The use of electrotechnical porcelain in these applications helps to enhance the overall performance and safety of renewable energy systems.In conclusion, electrotechnical porcelain is a vital material in the field of electrical engineering, offering unique properties that make it suitable for a wide range of applications. Its ability to withstand high voltages, extreme temperatures, and mechanical stress makes it indispensable in the production of electrical insulators, capacitors, and other devices. As technology continues to advance, the importance of electrotechnical porcelain will only increase, making it essential for professionals in the field to understand its properties and applications. By doing so, they can contribute to the development of safer and more efficient electrical systems, ultimately benefiting society as a whole.

现代技术的发展导致了各个领域的显著进步，包括电气工程中使用材料的生产。其中一种在这个领域中发挥关键作用的材料是电气陶瓷。这种特殊类型的陶瓷旨在承受高电压和极端温度，使其成为电气绝缘体、电容器和其他设备中的重要组成部分。理解电气陶瓷的特性和应用对于任何参与电气工程的人来说都是至关重要的。电气陶瓷是一种陶瓷材料，具有优良的介电特性，这意味着它可以有效地抵抗电流的流动。这一特性在需要绝缘以防止电泄漏并确保安全的应用中尤为重要。例如，电气陶瓷通常用于制造支撑架空电力线的绝缘体。这些绝缘体必须能够承受恶劣的环境条件，同时保持其绝缘特性，而电气陶瓷完美满足这些要求。电气陶瓷的另一个重要应用是在电容器的生产中。电容器是电子电路中的基本组件，因为它们存储和释放电能。在电容器中使用电气陶瓷可以实现更高的电压等级和更好的性能，这对现代电子设备至关重要。除了其电气特性外，电气陶瓷还以其机械强度和耐用性而闻名。这使其适合用于各种工业应用，包括开关设备和断路器。这些设备需要能够承受机械应力，同时提供可靠的电气绝缘的材料。电气陶瓷的坚固特性确保它能够有效应对这些挑战。此外，电气陶瓷的生产过程涉及对原材料的精心选择和精确的制造技术。铝土矿、硅石和其他添加剂的组合产生了一种不仅表现出优良电气特性，还具有高耐热冲击性的材料。这一特性在发生突然温度变化的应用中尤其有益，因为它能防止材料的开裂和失效。随着对可再生能源的需求不断增长，电气陶瓷的作用变得越来越重要。风力涡轮机和太阳能电池板需要可靠的绝缘材料，以确保其高效运行和长寿命。在这些应用中使用电气陶瓷有助于提高可再生能源系统的整体性能和安全性。总之，电气陶瓷是电气工程领域的重要材料，提供独特的特性，使其适用于广泛的应用。它能够承受高电压、极端温度和机械应力，使其在电气绝缘体、电容器和其他设备的生产中不可或缺。随着技术的不断进步，电气陶瓷的重要性只会增加，因此该领域的专业人士了解其特性和应用至关重要。通过这样做，他们可以为开发更安全、更高效的电气系统做出贡献，从而最终造福整个社会。