eddy current coupling

简明释义

涡流联轴器

英英释义

例句

1.In our testing lab, we used an eddy current coupling 涡流耦合 to measure the efficiency of various materials.

在我们的测试实验室，我们使用了涡流耦合来测量各种材料的效率。

2.The eddy current coupling 涡流耦合 is particularly useful in applications requiring variable speed control.

在需要变速控制的应用中，涡流耦合特别有用。

3.The eddy current coupling 涡流耦合 allows for smooth motion transfer between the motor and the load.

涡流耦合允许电动机与负载之间平稳传递运动。

4.By utilizing an eddy current coupling 涡流耦合, we can reduce wear on mechanical parts.

通过利用涡流耦合，我们可以减少机械部件的磨损。

5.The engineer explained how the eddy current coupling 涡流耦合 works in the new electric motor design.

工程师解释了新电动机设计中如何使用涡流耦合。

作文

The concept of eddy current coupling refers to a non-contact method of transferring energy between two systems using electromagnetic induction. This technology has gained significant attention in various industrial applications due to its efficiency and effectiveness. In essence, eddy current coupling works by generating eddy currents in a conductive material when it is exposed to a changing magnetic field. These eddy currents create their own magnetic fields, which interact with the original magnetic field, allowing energy to be transferred without any physical connection.One of the key advantages of eddy current coupling is its ability to eliminate wear and tear associated with mechanical couplings. Traditional mechanical couplings often suffer from friction and require regular maintenance, which can lead to downtime in industrial processes. On the other hand, eddy current coupling operates without direct contact, significantly reducing the risk of mechanical failure and extending the lifespan of the equipment involved.Moreover, eddy current coupling can be particularly beneficial in applications where high speeds are required. In industries such as automotive and aerospace, components often need to operate at high rotational speeds. Traditional couplings may struggle to maintain efficiency under such conditions, whereas eddy current coupling can provide smooth and efficient power transfer, enhancing overall performance.Another noteworthy aspect of eddy current coupling is its versatility. It can be employed in various forms of machinery, from electric motors to generators, and even in some renewable energy applications. For instance, in wind turbines, eddy current coupling can facilitate the transfer of energy from the turbine blades to the generator, optimizing energy production while minimizing losses.Despite its numerous advantages, there are some challenges associated with eddy current coupling. For example, the efficiency of energy transfer can be affected by factors such as the distance between the coupling elements and the materials used in their construction. Additionally, the initial cost of implementing eddy current coupling systems can be higher than traditional couplings, although this is often offset by the long-term savings from reduced maintenance and increased efficiency.In conclusion, eddy current coupling represents a significant advancement in the field of energy transfer technologies. Its ability to provide efficient, contactless energy transfer makes it an attractive option for many industries looking to improve performance and reduce maintenance costs. As technology continues to evolve, it is likely that we will see even more innovative applications of eddy current coupling, further solidifying its role in modern engineering solutions.

‘涡流耦合’的概念指的是一种通过电磁感应在两个系统之间以非接触方式传递能量的方法。这项技术因其高效和有效性在各种工业应用中引起了广泛关注。简单来说，‘涡流耦合’通过在导电材料中产生涡流来工作，当该材料暴露于变化的磁场时，这些涡流会产生自己的磁场，与原始磁场相互作用，从而允许能量在没有物理连接的情况下被传递。‘涡流耦合’的一个主要优点是能够消除与机械耦合相关的磨损和撕裂。传统的机械耦合通常因摩擦而受到影响，并且需要定期维护，这可能导致工业过程中的停工。另一方面，‘涡流耦合’在没有直接接触的情况下运行，显著降低了机械故障的风险，延长了所涉及设备的使用寿命。此外，‘涡流耦合’在需要高速度的应用中尤其有利。在汽车和航空航天等行业，组件通常需要在高速下运行。传统的耦合在这种情况下可能难以保持效率，而‘涡流耦合’可以提供平稳而高效的功率传输，增强整体性能。‘涡流耦合’的另一个值得注意的方面是其多功能性。它可以用于各种形式的机械设备，从电动机到发电机，甚至在一些可再生能源应用中。例如，在风力涡轮机中，‘涡流耦合’可以促进从涡轮叶片到发电机的能量传递，优化能量生产，同时最小化损失。尽管有许多优点，但‘涡流耦合’也面临一些挑战。例如，能量传递的效率可能会受到耦合元件之间距离和所用材料等因素的影响。此外，实施‘涡流耦合’系统的初始成本可能高于传统耦合，尽管这通常会通过减少维护和提高效率带来的长期节省来抵消。总之，‘涡流耦合’代表了能量传输技术领域的一项重要进展。它提供高效、无接触的能量传输，使其成为许多寻求提高性能和降低维护成本的行业的有吸引力的选择。随着技术的不断发展，我们很可能会看到‘涡流耦合’的更多创新应用，从而进一步巩固其在现代工程解决方案中的角色。