armature field

简明释义

电枢磁场

英英释义

例句

1.Understanding the dynamics of the armature field (电枢磁场) helps in optimizing machine performance.

理解armature field（电枢磁场）的动态有助于优化机器性能。

2.The design of the motor is crucial, as the armature field (电枢磁场) affects its efficiency.

电动机的设计至关重要，因为armature field（电枢磁场）会影响其效率。

3.The interaction between the armature field (电枢磁场) and the stator is essential for motor operation.

armature field（电枢磁场）与定子的相互作用对电动机的运行至关重要。

4.In this experiment, we will measure the strength of the armature field (电枢磁场) in different configurations.

在这个实验中，我们将测量不同配置下armature field（电枢磁场）的强度。

5.Adjusting the voltage can significantly alter the characteristics of the armature field (电枢磁场).

调整电压可以显著改变armature field（电枢磁场）的特性。

作文

The concept of the armature field is fundamental in the study of electromagnetism and electrical engineering. An armature field refers to the magnetic field produced by the armature of an electric machine, such as a generator or motor. Understanding this term is essential for grasping how these machines operate and how they convert electrical energy into mechanical energy, or vice versa.In an electric motor, the armature field plays a critical role in generating motion. The armature, which is typically composed of coils of wire wound around a core, rotates within a magnetic field created by stationary magnets or electromagnets. As current flows through the armature, it generates its own magnetic field, which interacts with the external magnetic field. This interaction creates a torque that causes the armature to spin, ultimately resulting in mechanical work being performed.The significance of the armature field extends beyond just motors. In generators, the process is somewhat reversed. The mechanical energy input into the system causes the armature to rotate within the magnetic field. This rotation induces a current in the armature coils due to electromagnetic induction, thereby converting mechanical energy into electrical energy. The efficiency of this conversion largely depends on the strength and configuration of the armature field.Moreover, the design of the armature field can greatly influence the performance of electrical machines. Factors such as the number of turns in the armature windings, the type of core material, and the strength of the magnetic field all contribute to the effectiveness of the armature field. Engineers must carefully consider these elements when designing machines to ensure optimal performance and efficiency.Additionally, understanding the armature field is crucial for troubleshooting and maintenance. If an electric machine is not functioning correctly, one of the first areas to investigate is the condition of the armature field. Issues such as short circuits, insulation failures, or misalignments can severely impact the performance of the armature and, consequently, the entire machine.In conclusion, the armature field is a vital component in the operation of electric machines, influencing both their functionality and efficiency. Whether in motors or generators, the principles governing the armature field are foundational to understanding how electrical energy is converted to mechanical energy and vice versa. For students and professionals in electrical engineering, mastering the concept of the armature field is essential for success in the field. As technology continues to advance, the importance of efficient and effective electric machines only grows, making the study of the armature field more relevant than ever.

“电枢场”这一概念在电磁学和电气工程的研究中是基础性的。“电枢场”是指电机（如发电机或电动机）电枢产生的磁场。理解这个术语对掌握这些机器的运作方式以及如何将电能转化为机械能，或反之，是至关重要的。在电动机中，“电枢场”在产生运动方面起着关键作用。电枢通常由绕在核心上的线圈组成，在静止的磁铁或电磁铁产生的磁场中旋转。当电流通过电枢时，它会产生自身的磁场，这个磁场与外部磁场相互作用。这种相互作用产生了扭矩，使电枢旋转，最终导致机械工作得以完成。“电枢场”的重要性不仅限于电动机。在发电机中，过程有些相反。输入到系统中的机械能使电枢在磁场中旋转。这种旋转由于电磁感应在电枢线圈中诱导出电流，从而将机械能转化为电能。这种转化的效率在很大程度上取决于“电枢场”的强度和配置。此外，“电枢场”的设计可以极大地影响电气机器的性能。电枢绕组的匝数、核心材料的类型以及磁场的强度等因素都对“电枢场”的有效性产生影响。工程师在设计机器时必须仔细考虑这些元素，以确保最佳的性能和效率。此外，理解“电枢场”对于故障排除和维护至关重要。如果电气机器未能正常工作，首先要检查的区域之一就是“电枢场”的状态。短路、绝缘失效或不对中等问题可能严重影响电枢的性能，从而影响整个机器。总之，“电枢场”是电气机器操作中的一个重要组成部分，影响其功能和效率。无论是在电动机还是发电机中，支配“电枢场”的原则都是理解电能如何转化为机械能及其反向过程的基础。对于电气工程的学生和专业人士而言，掌握“电枢场”的概念对在该领域取得成功至关重要。随着技术的不断进步，高效而有效的电气机器的重要性只会增加，使得对“电枢场”的研究变得更加相关。