armature chatter

简明释义

衔铁振动

英英释义

例句

1.To minimize armature chatter, regular maintenance checks should be scheduled.

为了减少电枢抖动，应定期安排维护检查。

2.The design team is working on a new model that aims to eliminate armature chatter altogether.

设计团队正在开发一种新型号，旨在完全消除电枢抖动。

3.The technician noticed that the motor was producing excessive armature chatter, indicating a potential alignment issue.

技术人员注意到电机产生过多的电枢抖动，这表明可能存在对准问题。

4.During the test run, the engineer recorded instances of armature chatter that could affect performance.

在测试运行期间，工程师记录了可能影响性能的电枢抖动实例。

5.Adjusting the tension on the brushes can help reduce armature chatter in electric motors.

调整刷子的张力可以帮助减少电动机中的电枢抖动。

作文

In the world of electrical engineering, one often encounters various phenomena that can affect the performance of machines. One such phenomenon is armature chatter, which refers to the vibrations or oscillations that occur in the armature of a motor or generator when it is not operating smoothly. This issue can lead to significant problems, including increased wear and tear on components, reduced efficiency, and even complete failure of the device if not addressed promptly. Understanding armature chatter is essential for engineers and technicians who aim to maintain optimal performance in electrical machines.The root causes of armature chatter can vary widely. Often, it is linked to mechanical imbalances within the machine. For instance, if the armature is not properly aligned or if there are inconsistencies in the winding, this can result in uneven forces acting on the armature during operation. These forces can create a rhythmic vibration, leading to the characteristic 'chatter' sound that gives the phenomenon its name. Additionally, external factors such as variations in load or supply voltage can exacerbate the situation, further contributing to the instability of the armature.To combat armature chatter, engineers must first diagnose the underlying issues. This may involve conducting a thorough inspection of the motor or generator to check for any signs of misalignment or wear. Balancing the armature and ensuring that all components are securely fastened can help mitigate the problem. Furthermore, regular maintenance practices, such as lubrication and cleaning, can prevent the buildup of debris that might contribute to vibrations.Another important aspect of addressing armature chatter is understanding the role of design in preventing these issues from occurring in the first place. Engineers must consider the materials used in the construction of the armature and other components. Choosing materials with appropriate damping properties can help absorb vibrations and reduce the likelihood of chatter. Moreover, advancements in technology have led to the development of more sophisticated control systems that can adjust the operation of motors and generators in real-time, minimizing the risk of armature chatter.In conclusion, armature chatter is a critical issue in the field of electrical engineering that can significantly impact the performance and longevity of machines. By understanding its causes and implementing effective prevention and mitigation strategies, engineers can enhance the reliability of their systems. As technology continues to evolve, it is essential for professionals in this field to stay informed about the latest advancements that can help address challenges like armature chatter. Ultimately, a proactive approach to maintenance and design will ensure that electrical machines operate smoothly and efficiently, minimizing downtime and maximizing productivity.

在电气工程的世界中，人们经常会遇到各种现象，这些现象可能会影响机器的性能。其中一个现象是电枢颤动，它指的是当电动机或发电机工作不平稳时，电枢产生的振动或摆动。这一问题可能导致显著的问题，包括组件的磨损加剧、效率降低，甚至如果不及时处理，设备可能会完全失效。理解电枢颤动对于旨在保持电气机器最佳性能的工程师和技术人员来说至关重要。电枢颤动的根本原因可能各不相同。通常，它与机器内部的机械不平衡有关。例如，如果电枢未正确对齐，或者绕组存在不一致性，这可能导致在运行过程中作用于电枢的不均匀力。这些力可能会产生有节奏的振动，从而导致特征性的“颤动”声，这就是这一现象得名的原因。此外，负载或供电电压的变化等外部因素也可能加剧这种情况，进一步导致电枢的不稳定。为了应对电枢颤动，工程师首先必须诊断潜在问题。这可能涉及对电动机或发电机进行彻底检查，以检查是否有任何不对齐或磨损的迹象。平衡电枢并确保所有组件都牢固固定可以帮助减轻问题。此外，定期维护措施，如润滑和清洁，可以防止可能导致振动的碎屑积聚。解决电枢颤动的另一个重要方面是理解设计在防止这些问题发生中的作用。工程师必须考虑用于电枢和其他组件制造的材料。选择具有适当阻尼特性的材料可以帮助吸收振动，减少颤动的可能性。此外，技术的进步导致开发出更复杂的控制系统，这些系统可以实时调整电动机和发电机的运行，最小化电枢颤动的风险。总之，电枢颤动是电气工程领域的一个关键问题，可能会显著影响机器的性能和使用寿命。通过理解其原因并实施有效的预防和缓解策略，工程师可以提高其系统的可靠性。随着技术的不断发展，该领域的专业人士必须保持对最新进展的关注，以帮助解决如电枢颤动等挑战。最终，主动的维护和设计方法将确保电气机器平稳高效地运行，最小化停机时间，最大化生产力。