rotating out-of-balance

简明释义

回转不平衡力

英英释义

例句

1.The machinery in the factory was making a loud noise because the rotor was rotating out-of-balance.

工厂里的机器发出很大的噪音，因为转子正在失去平衡旋转。

2.To prevent damage, it's important to address any issues with components rotating out-of-balance.

为了防止损坏，重要的是解决任何部件失去平衡旋转的问题。

3.The car's wheels were rotating out-of-balance, causing a bumpy ride.

汽车的轮子失去平衡旋转，导致了颠簸的行驶体验。

4.The technician discovered that the fan was rotating out-of-balance, which led to its premature failure.

技术人员发现风扇失去平衡旋转，这导致了它的提前故障。

5.If your washing machine is rotating out-of-balance, it can cause excessive vibration.

如果你的洗衣机失去平衡旋转，可能会导致过度振动。

作文

In the world of engineering and mechanics, the concept of balance is crucial for the optimal performance of machinery. One of the most critical issues that can arise in rotating machinery is when parts become misaligned or unevenly distributed, resulting in what is known as rotating out-of-balance. This phenomenon occurs when the mass of a rotating object is not evenly distributed around its axis of rotation. As a result, the object experiences vibrations and excessive wear, which can lead to catastrophic failures if not addressed promptly.To understand the implications of rotating out-of-balance, we must first consider how machines operate under ideal conditions. When a rotor spins evenly, all parts contribute equally to its motion, allowing it to function smoothly. However, if one side of the rotor has more mass than the other, it creates an imbalance. This imbalance generates centrifugal forces that push the heavier side outward, leading to vibrations that can cause damage over time.The effects of rotating out-of-balance are not limited to just vibrations. They can also lead to increased energy consumption, as the machine has to work harder to maintain its operation. This inefficiency can translate into higher operational costs and reduced lifespan of the equipment. In industries where precision and reliability are paramount, such as aerospace and automotive, even a slight imbalance can have significant consequences.Engineers employ various techniques to prevent rotating out-of-balance. One common method is dynamic balancing, where weights are added or removed from the rotor to achieve a uniform distribution of mass. This process is often done during the manufacturing stage but can also be performed during maintenance checks. Regular inspections and monitoring systems are also crucial to detect any signs of imbalance early on, thereby preventing more severe issues down the line.Moreover, the understanding of rotating out-of-balance extends beyond just mechanical systems; it can also be applied metaphorically in various aspects of life. For instance, when individuals experience stress or burnout, they may feel as if their lives are rotating out-of-balance. Just like a machine, human beings require balance to function optimally. Ensuring a healthy work-life balance, managing time effectively, and taking care of mental health are all essential for maintaining personal equilibrium.In conclusion, the phrase rotating out-of-balance encapsulates a critical issue in both engineering and everyday life. Whether it pertains to machinery that requires precise alignment to operate efficiently or to individuals striving for harmony in their lives, understanding this concept is essential. By recognizing the signs of imbalance and taking proactive measures, we can enhance performance, improve safety, and foster a more balanced existence. The importance of addressing rotating out-of-balance cannot be overstated, as it is a fundamental principle that applies to both machines and humans alike.

在工程和机械的世界中，平衡的概念对机器的最佳性能至关重要。在旋转机械中可能出现的一个关键问题是部件发生错位或分布不均，导致所谓的旋转失衡。这一现象发生在旋转物体的质量未均匀分布在其旋转轴周围时。因此，物体会经历振动和过度磨损，如果不及时处理，可能会导致灾难性的故障。要理解旋转失衡的影响，我们首先必须考虑机器在理想条件下的工作方式。当转子均匀旋转时，所有部件都均等地贡献于其运动，使其平稳运行。然而，如果转子的某一侧质量大于另一侧，就会产生不平衡。这种不平衡会产生离心力，推动较重的一侧向外，导致振动，随着时间的推移可能造成损害。旋转失衡的影响不仅限于振动。它们还可能导致能耗增加，因为机器必须更加努力地维持其运行。这种低效可能转化为更高的运营成本和设备使用寿命的减少。在航空航天和汽车等对精确度和可靠性要求极高的行业中，即使是轻微的不平衡也可能产生重大后果。工程师采用各种技术来防止旋转失衡。一种常见的方法是动态平衡，即通过添加或去除转子上的重量来实现质量的均匀分布。这个过程通常在制造阶段进行，但也可以在维护检查期间进行。定期检查和监控系统对于及早发现任何不平衡的迹象也至关重要，从而防止更严重的问题出现。此外，对旋转失衡的理解不仅限于机械系统；它还可以在生活的各个方面比喻性地应用。例如，当个人经历压力或倦怠时，他们可能会感到生活像是旋转失衡。就像机器一样，人类也需要平衡才能最佳运作。确保健康的工作与生活平衡、有效管理时间以及照顾心理健康对于维持个人的平衡至关重要。总之，短语旋转失衡概括了工程和日常生活中的一个关键问题。无论是涉及需要精确对齐以高效运作的机器，还是个体努力寻求生活的和谐，理解这一概念都是必不可少的。通过识别不平衡的迹象并采取积极措施，我们可以增强性能、提高安全性，并促进更平衡的存在。解决旋转失衡的重要性不容小觑，因为这是适用于机器和人类的基本原则。