disk armature

简明释义

盘形电枢

英英释义

例句

1.The engineer designed a new model that features a more efficient disk armature 盘臂 for better performance.

工程师设计了一种新模型，采用了更高效的disk armature 盘臂以提高性能。

2.The disk armature 盘臂 in this electric motor is crucial for generating rotational motion.

这个电动机中的disk armature 盘臂 对于产生旋转运动至关重要。

3.In the latest robotics competition, the team utilized a lightweight disk armature 盘臂 to enhance their robot's agility.

在最新的机器人比赛中，团队使用了轻量级的disk armature 盘臂来增强机器人的灵活性。

4.To optimize the sound quality, the audio device was equipped with a high-fidelity disk armature 盘臂 speaker.

为了优化音质，这款音频设备配备了高保真disk armature 盘臂扬声器。

5.During the maintenance check, the technician found that the disk armature 盘臂 had worn out and needed replacement.

在维护检查中，技术人员发现disk armature 盘臂已经磨损，需要更换。

作文

In the field of electrical engineering, various components play crucial roles in the functioning of machines and devices. One such component is the disk armature, which is essential in the operation of certain types of electric motors and generators. The disk armature refers to a flat, circular element that is typically made of conductive material, such as copper or aluminum, and is used to create an electromagnetic field when an electric current passes through it. This component is vital for converting electrical energy into mechanical energy, making it a key player in the efficiency of electromechanical systems.The design of a disk armature allows for a compact arrangement of windings, which enhances the performance of the motor or generator. When current flows through the windings of the disk armature, it generates a magnetic field that interacts with the magnetic field produced by the stator, leading to rotational motion. This principle is based on Faraday's law of electromagnetic induction, which states that a changing magnetic field can induce an electromotive force (EMF) in a conductor.One of the significant advantages of using a disk armature is that it can minimize losses due to resistance in the windings. The flat design allows for a more efficient path for the current, reducing the overall energy loss during operation. Additionally, the disk armature can be engineered to operate at higher speeds, which is particularly beneficial in applications where rapid rotation is required, such as in turbines or high-speed motors.Moreover, the disk armature is often utilized in modern technologies, including electric vehicles and renewable energy systems. In electric vehicles, for instance, the disk armature plays a critical role in the electric drive system, providing the necessary torque to propel the vehicle forward. Similarly, in wind turbines, the disk armature helps convert the kinetic energy of wind into electrical energy, contributing to sustainable energy solutions.Despite its advantages, the design and manufacturing of a disk armature must be approached with precision. Factors such as the thickness of the disk, the number of windings, and the type of materials used can significantly impact the performance and efficiency of the component. Engineers must carefully consider these factors to optimize the disk armature for specific applications, ensuring that it meets the operational demands while maintaining reliability.In conclusion, the disk armature is a fundamental component in many electromechanical systems, providing essential functions that enable the conversion of electrical energy into mechanical energy. Its unique design offers several benefits, including improved efficiency and performance, making it a preferred choice in various modern applications. As technology continues to advance, the role of the disk armature will likely evolve, paving the way for even more innovative solutions in the field of electrical engineering.

在电气工程领域，各种组件在机器和设备的运作中扮演着至关重要的角色。其中一个组件是盘式电枢，它在某些类型的电动机和发电机的运行中至关重要。盘式电枢指的是一个平坦的圆形元件，通常由导电材料（如铜或铝）制成，当电流通过时，它被用来产生电磁场。这个组件对于将电能转换为机械能至关重要，使其成为机电系统效率的关键参与者。盘式电枢的设计允许绕组的紧凑排列，从而增强电动机或发电机的性能。当电流流过盘式电枢的绕组时，会产生一个与定子产生的磁场相互作用的磁场，导致旋转运动。这个原理基于法拉第电磁感应定律，该定律指出，变化的磁场可以在导体中感应出电动势（EMF）。使用盘式电枢的一个显著优势是，它可以最小化绕组中的电阻损耗。平坦的设计为电流提供了更高效的路径，减少了操作过程中的整体能量损失。此外，盘式电枢可以被设计为在更高速度下运行，这在需要快速旋转的应用中尤其有利，例如涡轮机或高速电动机。此外，盘式电枢通常用于现代技术中，包括电动车辆和可再生能源系统。例如，在电动车辆中，盘式电枢在电驱动系统中发挥着关键作用，为车辆提供必要的扭矩以推动其前进。同样，在风力涡轮机中，盘式电枢帮助将风的动能转换为电能，为可持续能源解决方案做出贡献。尽管有其优势，但盘式电枢的设计和制造必须精确进行。盘的厚度、绕组的数量和所用材料的类型等因素会显著影响组件的性能和效率。工程师必须仔细考虑这些因素，以优化特定应用的盘式电枢，确保其满足操作要求，同时保持可靠性。总之，盘式电枢是许多机电系统中的基本组件，提供了使电能转化为机械能的基本功能。其独特的设计提供了多个优点，包括提高效率和性能，使其在各种现代应用中成为首选。随着技术的不断进步，盘式电枢的角色可能会不断演变，为电气工程领域带来更多创新解决方案。