armature winding

简明释义

电枢绕法

英英释义

例句

1.During maintenance, we found that the armature winding had significant wear and tear.

在维护过程中，我们发现电枢绕组有明显的磨损。

2.Proper insulation of the armature winding can prevent electrical failures.

对电枢绕组进行适当绝缘可以防止电气故障。

3.The design of the armature winding is crucial for optimizing performance in generators.

设计电枢绕组对于优化发电机性能至关重要。

4.The efficiency of the motor is largely determined by the quality of the armature winding.

电动机的效率在很大程度上取决于电枢绕组的质量。

5.We are using a new material for the armature winding to improve conductivity.

我们正在使用一种新材料来改善电枢绕组的导电性。

作文

The concept of armature winding is crucial in the field of electrical engineering, particularly in the design and operation of electric motors and generators. The armature winding refers to the coils of wire that are wound around the armature, which is the rotating part of an electric machine. This component plays a vital role in the generation of electromagnetic fields, which are essential for the functioning of these devices. Understanding the importance of armature winding can help engineers and students alike appreciate the intricate workings of electric machines.In a typical electric motor, the armature winding is responsible for converting electrical energy into mechanical energy. When current flows through the winding, it creates a magnetic field that interacts with the magnetic field of the stator, the stationary part of the motor. This interaction produces torque, causing the armature to rotate. The design of the armature winding is critical because it affects the efficiency and performance of the motor. Factors such as the number of turns in the winding, the type of wire used, and the arrangement of the coils can significantly influence the motor's output.Similarly, in generators, the armature winding plays a key role in converting mechanical energy back into electrical energy. As the armature rotates within a magnetic field, it induces an electromotive force (EMF) in the winding due to Faraday's law of electromagnetic induction. The quality of the armature winding directly impacts the generator's voltage output and overall efficiency. Engineers must carefully consider the design and materials used in the winding to optimize performance and minimize energy losses.Moreover, the armature winding is also subject to various stresses during operation. Thermal effects, mechanical vibrations, and electrical loading can all impact the integrity of the winding over time. Therefore, understanding the limitations and proper maintenance of the armature winding is essential for ensuring the longevity and reliability of electric machines. Regular inspections and testing can help identify potential issues before they lead to failure, thereby saving time and resources in repairs and replacements.In conclusion, the armature winding is a fundamental aspect of electric motors and generators, serving as the backbone for their operation. A thorough understanding of its design, function, and maintenance is essential for anyone involved in electrical engineering. By appreciating the role of the armature winding, we can better understand the complexities of electric machines and their applications in modern technology. As we continue to innovate and improve these systems, the significance of the armature winding will remain a pivotal topic in the field, driving advancements in efficiency and performance across various industries.

“定子绕组”的概念在电气工程领域至关重要，特别是在电动机和发电机的设计和操作中。定子绕组是指缠绕在定子上的导线圈，这是电机的旋转部分。这个组件在产生电磁场方面发挥着关键作用，而电磁场对于这些设备的正常运行是必不可少的。理解定子绕组的重要性可以帮助工程师和学生更好地欣赏电机的复杂工作原理。在典型的电动机中，定子绕组负责将电能转换为机械能。当电流通过绕组时，它会产生一个与定子磁场相互作用的磁场。这种相互作用产生的扭矩使定子旋转。定子绕组的设计至关重要，因为它影响电动机的效率和性能。绕组中的圈数、所用导线的类型和线圈的排列等因素都会显著影响电动机的输出。同样，在发电机中，定子绕组在将机械能转化回电能方面也起着关键作用。当定子在磁场中旋转时，由于法拉第电磁感应定律，它在绕组中感应出电动势（EMF）。定子绕组的质量直接影响发电机的电压输出和整体效率。工程师必须仔细考虑绕组的设计和所用材料，以优化性能并最小化能量损失。此外，定子绕组在运行过程中也会受到各种压力的影响。热效应、机械振动和电负荷都可能影响绕组的完整性。因此，了解定子绕组的局限性及其适当维护对于确保电机的长寿命和可靠性至关重要。定期检查和测试可以帮助在故障发生之前识别潜在问题，从而节省维修和更换的时间和资源。总之，定子绕组是电动机和发电机的基本组成部分，是其运行的支柱。全面理解其设计、功能和维护对任何参与电气工程的人来说都是至关重要的。通过欣赏定子绕组的作用，我们可以更好地理解电机的复杂性及其在现代技术中的应用。随着我们继续创新和改进这些系统，定子绕组的重要性将继续成为该领域的一个关键主题，推动各行业效率和性能的进步。