brush corona

简明释义

刷形电晕

英英释义

例句

1.During the manufacturing process, it's common to brush corona materials to enhance their surface properties.

在制造过程中，通常会对材料进行刷涂电晕以增强其表面特性。

2.In electronics, it's crucial to brush corona on the wires to prevent electrical discharge.

在电子设备中，刷涂电晕在导线上是至关重要的，以防止电气放电。

3.To improve adhesion, you might need to brush corona the plastic before applying the adhesive.

为了提高粘附力，你可能需要在应用粘合剂之前对塑料进行刷涂电晕。

4.The technician demonstrated how to brush corona effectively on the surface of the insulator.

技术员演示了如何有效地在绝缘体表面进行刷涂电晕。

5.Before applying the final coat of paint, make sure to brush corona to ensure a smooth finish.

在涂上最后一层油漆之前，确保刷涂电晕以确保光滑的表面。

作文

In recent years, the term brush corona has gained attention in various fields, particularly in the study of electrical engineering and atmospheric phenomena. Understanding this concept is essential for both researchers and practitioners working with high-voltage systems and electrical insulation. The brush corona phenomenon occurs when a high electric field ionizes the air around a conductor, leading to a discharge that can manifest as a faint glow or a hissing sound. This effect is often observed in power lines, transmission equipment, and even in everyday electronic devices. The significance of brush corona cannot be overstated. It not only affects the efficiency of electrical systems but also poses safety risks. For instance, in high-voltage power transmission, the presence of brush corona can lead to energy loss and reduced performance. Furthermore, the ionization of air can create ozone and other reactive species, which may contribute to material degradation and environmental concerns. Therefore, it is crucial for engineers to understand how to minimize the impact of brush corona in their designs.To mitigate the effects of brush corona, various strategies can be employed. One common method involves using specially designed insulators that can withstand high electric fields without allowing ionization to occur. Additionally, the geometry of conductors can be optimized to reduce the intensity of the electric field at their surfaces, thereby minimizing the chances of brush corona formation. Moreover, advancements in materials science have led to the development of new insulating materials that possess better dielectric properties, further reducing the likelihood of brush corona. Engineers are also exploring the use of coatings and surface treatments to enhance the performance of electrical components in environments where brush corona might be an issue.In practical applications, understanding brush corona is vital for ensuring the reliability and longevity of electrical systems. For example, in the design of high-voltage transmission lines, engineers must account for the potential for brush corona to occur under certain environmental conditions, such as high humidity or pollution levels. By taking these factors into consideration, they can create more robust systems that are less susceptible to failures caused by electrical discharges.In conclusion, the concept of brush corona plays a critical role in the field of electrical engineering. By recognizing its implications and implementing effective strategies to manage its effects, professionals can enhance the efficiency and safety of high-voltage systems. As technology continues to advance, ongoing research into brush corona will undoubtedly lead to further innovations that improve the performance of electrical devices, ultimately benefiting society as a whole.

近年来，短语brush corona在多个领域引起了关注，特别是在电气工程和大气现象的研究中。理解这一概念对于从事高压系统和电气绝缘工作的研究人员和从业者至关重要。brush corona现象发生在高电场使导体周围的空气电离时，导致一种可以表现为微弱光辉或嘶嘶声的放电。这种效应常见于电力线、传输设备，甚至日常电子设备中。brush corona的重要性不容小觑。它不仅影响电气系统的效率，还存在安全风险。例如，在高压电力传输中，brush corona的存在可能导致能量损失和性能下降。此外，空气的电离可能产生臭氧和其他反应物，这可能导致材料降解和环境问题。因此，工程师必须理解如何在设计中最小化brush corona的影响。为了减轻brush corona的影响，可以采用多种策略。一种常见的方法是使用专门设计的绝缘体，这些绝缘体能够承受高电场而不会导致电离。此外，可以优化导体的几何形状，以降低其表面电场的强度，从而减少brush corona形成的机会。此外，材料科学的进步促使开发出具有更好介电特性的新的绝缘材料，进一步降低了brush corona的可能性。工程师们还在探索使用涂层和表面处理来增强电气组件在可能出现brush corona的问题环境中的性能。在实际应用中，理解brush corona对确保电气系统的可靠性和耐用性至关重要。例如，在高压传输线的设计中，工程师必须考虑在某些环境条件下（如高湿度或污染水平）可能发生的brush corona。通过考虑这些因素，他们可以创建更强大的系统，使其不易因电气放电而发生故障。总之，brush corona的概念在电气工程领域发挥着关键作用。通过认识到其影响并实施有效的管理策略，专业人员可以提高高压系统的效率和安全性。随着技术的不断进步，对brush corona的持续研究无疑将带来进一步的创新，改善电气设备的性能，最终造福整个社会。