armature rotor

简明释义

电枢转子

英英释义

例句

1.During maintenance, check for wear and tear on the armature rotor 电枢转子 components.

在维护过程中，检查armature rotor 电枢转子组件的磨损情况。

2.The technician replaced the damaged armature rotor 电枢转子 in the electric motor.

技术员更换了电动机中损坏的armature rotor 电枢转子。

3.The design of the armature rotor 电枢转子 affects the overall performance of the machine.

armature rotor 电枢转子的设计影响机器的整体性能。

4.A faulty armature rotor 电枢转子 can lead to decreased efficiency in generators.

故障的armature rotor 电枢转子会导致发电机效率下降。

5.When assembling the motor, ensure that the armature rotor 电枢转子 is properly aligned.

在组装电动机时，确保armature rotor 电枢转子正确对齐。

作文

The concept of the armature rotor is fundamental in the field of electrical engineering, particularly in the design and functioning of electric motors and generators. An armature rotor refers to the rotating component of an electric machine that carries the current and generates a magnetic field. This component plays a crucial role in the conversion of electrical energy into mechanical energy and vice versa.In simple terms, the armature rotor consists of a core made of ferromagnetic material, which is wound with coils of wire. When electrical current passes through these coils, it creates a magnetic field that interacts with the stationary part of the machine known as the stator. This interaction produces rotational motion, which is essential for the operation of electric motors. In generators, the process is reversed; mechanical energy is used to rotate the armature rotor, inducing an electric current in the coils.Understanding the construction and function of the armature rotor is vital for engineers and technicians who work in the field of power generation and motor design. The efficiency and performance of electric machines greatly depend on the design of the armature rotor. Factors such as the number of turns in the coils, the type of material used for the core, and the overall geometry of the rotor can significantly affect the machine's output and efficiency.One of the key aspects of the armature rotor is its ability to withstand high speeds and temperatures. Electric motors often operate under demanding conditions, and the materials used in the armature rotor must be able to endure these stresses without degrading. This is why advanced materials and cooling techniques are often employed in modern electric machines.Additionally, the armature rotor can come in various designs depending on the application. For instance, in some motors, the rotor is designed to be a permanent magnet, while in others, it may rely on electromagnetic induction. Each design has its advantages and disadvantages, making it essential for engineers to choose the right type of armature rotor for their specific application.In summary, the armature rotor is a critical component in electric motors and generators, serving as the heart of the machine that facilitates the conversion of energy. Its design and functionality directly impact the performance and efficiency of electrical systems. A thorough understanding of the armature rotor is essential for anyone involved in the fields of electrical engineering and energy production. As technology continues to advance, the design and materials used for armature rotors will evolve, leading to more efficient and powerful electric machines that can meet the growing demands of modern society.

“电枢转子”这一概念在电气工程领域中非常重要，尤其是在电动机和发电机的设计与功能方面。“电枢转子”是指电机的旋转部件，它携带电流并产生磁场。这个组件在电能转化为机械能以及反之的过程中发挥着至关重要的作用。简单来说，“电枢转子”由一个由铁磁材料制成的核心构成，绕有线圈。当电流通过这些线圈时，会产生一个与机器的静止部分（称为定子）相互作用的磁场。这种相互作用产生了旋转运动，这对于电动机的操作是必不可少的。在发电机中，过程则相反；机械能用于旋转“电枢转子”，在线圈中感应出电流。理解“电枢转子”的结构和功能对于在电力生成和电动机设计领域工作的工程师和技术人员至关重要。电气机器的效率和性能在很大程度上依赖于“电枢转子”的设计。线圈中的绕组数量、核心材料的类型以及转子的整体几何形状等因素都会显著影响机器的输出和效率。“电枢转子”的一个关键方面是它能够承受高速度和高温。电动机通常在苛刻的条件下运行，因此用于“电枢转子”的材料必须能够承受这些应力而不降解。这就是为什么现代电气机器中常常采用先进材料和冷却技术的原因。此外，“电枢转子”可以根据应用的不同而具有各种设计。例如，在某些电动机中，转子被设计为永久磁铁，而在其他电动机中，它可能依赖电磁感应。每种设计都有其优缺点，因此工程师在选择适合其特定应用的“电枢转子”时必须谨慎。总之，“电枢转子”是电动机和发电机中的关键组件，作为机器的核心，促进了能量的转化。它的设计和功能直接影响电气系统的性能和效率。对“电枢转子”的透彻理解对于任何参与电气工程和能源生产领域的人来说都是必不可少的。随着技术的不断进步，“电枢转子”的设计和材料将不断演变，从而导致更高效、更强大的电气机器，能够满足现代社会日益增长的需求。