magnetic leakage

简明释义

磁漏

英英释义

例句

1.Reducing magnetic leakage 磁漏 can lead to lower energy losses in power distribution.

减少 magnetic leakage 磁漏 可以降低电力分配中的能量损失。

2.Detecting magnetic leakage 磁漏 is crucial for maintaining the safety of high-voltage equipment.

检测 magnetic leakage 磁漏 对于维护高压设备的安全至关重要。

3.The technician used a specialized instrument to identify areas with excessive magnetic leakage 磁漏.

技术员使用专用仪器来识别存在过多 magnetic leakage 磁漏 的区域。

4.The engineers conducted a test to measure the amount of magnetic leakage 磁漏 from the transformer.

工程师们进行了测试，以测量变压器的 magnetic leakage 磁漏 量。

5.To improve efficiency, we need to minimize magnetic leakage 磁漏 in our electrical systems.

为了提高效率，我们需要最小化电气系统中的 magnetic leakage 磁漏。

作文

In the field of electromagnetism, understanding the concept of magnetic leakage is crucial for both engineers and scientists. Magnetic leakage refers to the phenomenon where magnetic fields escape from their intended path or confinement, leading to a loss of efficiency in electromagnetic devices. This issue is particularly significant in transformers, inductors, and electric motors, where the precise control of magnetic fields is essential for optimal performance.When designing electromagnetic systems, engineers must consider how magnetic leakage can affect the overall functionality of the device. For instance, in a transformer, the primary winding generates a magnetic field that is supposed to induce a current in the secondary winding. However, if there is significant magnetic leakage, some of the magnetic field may not link with the secondary winding, resulting in reduced power transfer and increased energy losses.To mitigate the effects of magnetic leakage, various design strategies can be employed. One common approach is to use magnetic cores made from materials with high permeability, which can help confine the magnetic field more effectively. Additionally, engineers often design the geometry of the magnetic circuit to minimize gaps and ensure that the magnetic flux remains within the desired paths. By doing so, they can reduce the impact of magnetic leakage and improve the efficiency of the device.Moreover, the phenomenon of magnetic leakage is not only a concern in industrial applications but also in everyday electronic devices. For example, in household appliances such as microwaves and refrigerators, the presence of magnetic leakage can lead to interference with other electronic components, affecting their performance and longevity. Therefore, understanding and addressing magnetic leakage is vital for ensuring the reliability and efficiency of these devices.In conclusion, magnetic leakage is a significant factor that can influence the performance of electromagnetic devices. Engineers and scientists must work diligently to understand its implications and develop solutions to minimize its effects. By employing advanced materials and innovative designs, it is possible to reduce magnetic leakage and enhance the efficiency of various applications, ultimately leading to better-performing technologies and energy savings for consumers. As we continue to advance in the field of electromagnetism, the importance of managing magnetic leakage will only become more pronounced, highlighting the need for ongoing research and development in this area.

在电磁学领域，理解磁泄漏的概念对工程师和科学家来说至关重要。磁泄漏是指磁场从其预定路径或限制中逃逸的现象，导致电磁设备效率的损失。这个问题在变压器、感应器和电动机中尤为重要，因为精确控制磁场对于最佳性能至关重要。在设计电磁系统时，工程师必须考虑磁泄漏如何影响设备的整体功能。例如，在变压器中，初级绕组产生一个磁场，该磁场应该在次级绕组中感应出电流。然而，如果存在显著的磁泄漏，那么一些磁场可能无法与次级绕组链接，从而导致功率传输减少和能量损失增加。为了减轻磁泄漏的影响，可以采用各种设计策略。一种常见的方法是使用高磁导率材料制成的磁芯，这可以更有效地限制磁场。此外，工程师通常会设计磁路的几何形状，以尽量减少间隙，确保磁通保持在所需路径内。通过这样做，他们可以减少磁泄漏的影响，提高设备的效率。此外，磁泄漏现象不仅在工业应用中值得关注，在日常电子设备中也同样重要。例如，在微波炉和冰箱等家用电器中，磁泄漏的存在可能会干扰其他电子元件，影响其性能和寿命。因此，理解和解决磁泄漏问题对于确保这些设备的可靠性和效率至关重要。总之，磁泄漏是一个显著因素，可能会影响电磁设备的性能。工程师和科学家必须努力理解其影响，并开发解决方案以最小化其影响。通过采用先进材料和创新设计，有可能减少磁泄漏，提高各种应用的效率，最终为消费者带来更好的技术性能和节能效果。随着我们在电磁学领域的不断进步，管理磁泄漏的重要性将愈加明显，突显了在这一领域持续开展研究和开发的必要性。