armature gap

简明释义

电枢间隙衔铁间隙

英英释义

例句

1.The engineer adjusted the armature gap to improve the torque output of the generator.

工程师调整了电枢间隙以改善发电机的扭矩输出。

2.A smaller armature gap can lead to increased magnetic flux, enhancing efficiency.

更小的电枢间隙可以导致增加的磁通量，从而提高效率。

3.An incorrect armature gap can cause overheating in electric motors.

不正确的电枢间隙可能导致电动机过热。

4.During maintenance, we need to check the armature gap for any wear and tear.

在维护期间，我们需要检查电枢间隙是否有任何磨损。

5.The design of the motor must consider the armature gap for optimal performance.

电机的设计必须考虑到电枢间隙以实现最佳性能。

作文

The design and functionality of electric machines are fascinating fields that blend physics and engineering. One critical aspect of these machines is the concept of the armature gap, which plays a vital role in their efficiency and performance. The armature gap refers to the space between the armature and the stator in an electric motor or generator. This gap is crucial because it influences the magnetic field strength and, consequently, the overall torque produced by the machine.Understanding the armature gap is essential for engineers who design electric motors. A smaller armature gap can lead to a stronger magnetic field, resulting in higher torque. However, if the gap is too small, it may cause mechanical issues such as increased wear and tear or overheating of the components. Therefore, engineers must strike a balance between having a sufficiently small armature gap to maximize efficiency while ensuring that the machine operates reliably under various conditions.In addition, the armature gap affects the performance characteristics of electric machines. For example, in applications requiring high-speed operation, a well-optimized armature gap can significantly enhance the machine's response time and efficiency. Conversely, in low-speed applications, a larger armature gap might be beneficial to accommodate thermal expansion and reduce the risk of contact between the armature and stator.Moreover, the armature gap also impacts the electromagnetic interference (EMI) in electric machines. A poorly designed gap can lead to increased noise and vibrations, which can affect the longevity and reliability of the machine. Engineers must consider these factors when designing the armature gap to ensure that the electric machine operates smoothly and quietly.In recent years, advancements in materials and manufacturing techniques have allowed for more precise control over the armature gap. New materials with better magnetic properties can enhance the performance of electric machines, making them more efficient and powerful. Additionally, modern manufacturing processes enable tighter tolerances, ensuring that the armature gap is optimized for each specific application.In conclusion, the armature gap is a fundamental aspect of electric machine design that significantly influences their performance and efficiency. Understanding the implications of this gap allows engineers to create machines that are not only powerful but also reliable and durable. As technology continues to evolve, the importance of optimizing the armature gap will remain a key focus for engineers looking to push the boundaries of electric machine performance. By mastering the intricacies of the armature gap, we can pave the way for innovations in electric machinery that will shape the future of energy and transportation.

电机的设计和功能是一个结合物理学和工程学的迷人领域。这些机器的一个关键方面是“armature gap”的概念，它在机器的效率和性能中起着至关重要的作用。“armature gap”指的是电动机或发电机中电枢与定子之间的空间。这个间隙至关重要，因为它影响磁场强度，从而影响机器产生的整体扭矩。理解“armature gap”对于设计电动机的工程师来说至关重要。较小的“armature gap”可以导致更强的磁场，从而产生更高的扭矩。然而，如果间隙过小，可能会导致机械问题，例如部件的磨损或过热。因此，工程师必须在保持足够小的“armature gap”以最大化效率与确保机器在各种条件下可靠运行之间寻求平衡。此外，“armature gap”还影响电机的性能特性。例如，在需要高速操作的应用中，经过良好优化的“armature gap”可以显著提高机器的响应时间和效率。相反，在低速应用中，较大的“armature gap”可能更有利于适应热膨胀，并降低电枢与定子之间接触的风险。此外，“armature gap”还会影响电机中的电磁干扰（EMI）。设计不良的间隙可能导致噪声和振动增加，从而影响机器的使用寿命和可靠性。在设计“armature gap”时，工程师必须考虑这些因素，以确保电机平稳安静地运行。近年来，材料和制造技术的进步使得对“armature gap”的控制更加精确。具有更好磁性的材料可以增强电机的性能，使其更加高效和强大。此外，现代制造工艺能够实现更紧的公差，确保每个特定应用的“armature gap”得到优化。总之，“armature gap”是电机设计的一个基本方面，对其性能和效率有重要影响。理解这一间隙的影响使工程师能够创造出不仅强大而且可靠耐用的机器。随着技术的不断发展，优化“armature gap”的重要性将继续成为工程师们关注的重点，为推动电机性能的创新铺平道路。通过掌握“armature gap”的复杂性，我们可以为塑造未来能源和交通领域的电气机械创新铺平道路。