rotation noise

简明释义

旋转噪声

英英释义

例句

1.To reduce rotation noise 旋转噪声, we need to lubricate the bearings more frequently.

为了减少旋转噪声 旋转噪声，我们需要更频繁地给轴承润滑。

2.The engineer noticed that the rotation noise 旋转噪声 from the motor was increasing during operation.

工程师注意到电机在运行时产生的旋转噪声 旋转噪声正在增加。

3.The technician measured the rotation noise 旋转噪声 levels to ensure compliance with industry standards.

技术员测量了旋转噪声 旋转噪声水平，以确保符合行业标准。

4.We implemented a new design to minimize rotation noise 旋转噪声 in our latest product line.

我们实施了一种新设计，以最小化我们最新产品线中的旋转噪声 旋转噪声。

5.Excessive rotation noise 旋转噪声 can indicate a problem with the gear system.

过多的旋转噪声 旋转噪声可能表明齿轮系统存在问题。

作文

In the realm of engineering and physics, the term rotation noise refers to the sound generated by rotating machinery or components. This phenomenon can be observed in various applications, from simple household appliances to complex industrial machines. Understanding the nature and impact of rotation noise is crucial for engineers and designers as they strive to create quieter and more efficient systems. One common source of rotation noise is electric motors. As these motors spin, they produce vibrations that lead to audible sounds. The intensity of this noise can vary based on several factors, including the motor's speed, load, and design. For instance, a motor operating at high speeds may generate significant rotation noise, which can be detrimental in environments requiring low sound levels, such as hospitals or residential areas.Another area where rotation noise is a concern is in the automotive industry. Vehicles contain numerous rotating parts, including engines, transmissions, and wheels. The noise produced by these components can affect the overall driving experience. Manufacturers often invest in noise reduction technologies to minimize rotation noise, thereby enhancing comfort for passengers and reducing environmental impact.In addition to affecting user experience, rotation noise can also have implications for the longevity of machinery. Prolonged exposure to excessive noise can lead to wear and tear on mechanical parts, ultimately resulting in costly repairs or replacements. Engineers must carefully analyze the sources of rotation noise during the design phase to mitigate potential issues. This analysis often involves using advanced tools and techniques, such as computer simulations and sound level measurements, to predict and address noise generation early in the development process.Moreover, the study of rotation noise extends beyond just reducing sound levels; it also encompasses the investigation of its causes and effects. Researchers are continuously exploring ways to understand the mechanisms behind rotation noise better. This includes studying the interactions between different materials, the influence of lubrication, and the geometry of rotating parts. By gaining insight into these factors, engineers can devise innovative solutions to minimize noise while maintaining performance and efficiency.The importance of addressing rotation noise is further highlighted by regulatory standards in various industries. Many countries have established guidelines to limit noise emissions from machinery and vehicles. Compliance with these regulations is essential for manufacturers, as failing to do so can result in legal penalties and damage to their reputation.In conclusion, rotation noise is a significant factor in the design and operation of many mechanical systems. Its implications stretch across user comfort, equipment longevity, and regulatory compliance. As technology advances, the pursuit of quieter machines will likely continue to be a priority for engineers and designers. By understanding and addressing rotation noise, we can create more efficient and enjoyable products for consumers while also contributing to a quieter world.

在工程和物理学领域，术语rotation noise指的是旋转机械或部件产生的声音。这种现象可以在各种应用中观察到，从简单的家用电器到复杂的工业机器。理解rotation noise的性质和影响对工程师和设计师至关重要，因为他们努力创造更安静、更高效的系统。电动机是rotation noise的一个常见来源。当这些电动机旋转时，会产生振动，从而导致可听声音。噪声的强度可能会因多个因素而异，包括电动机的速度、负载和设计。例如，在高速运行的电动机可能会产生显著的rotation noise，这在需要低声级的环境中（如医院或住宅区）可能是有害的。汽车行业也是一个关注rotation noise的领域。车辆包含众多旋转部件，包括发动机、变速器和车轮。这些部件产生的噪声会影响整体驾驶体验。制造商通常会投资于降噪技术，以最小化rotation noise，从而增强乘客的舒适感并减少环境影响。除了影响用户体验外，rotation noise还可能对机械的寿命产生影响。长时间暴露于过大的噪音中可能导致机械部件的磨损，从而最终导致昂贵的维修或更换。工程师必须在设计阶段仔细分析rotation noise的来源，以减轻潜在问题。这种分析通常涉及使用先进的工具和技术，例如计算机模拟和声级测量，以便在开发过程中早期预测和解决噪声产生问题。此外，研究rotation noise不仅限于降低声级；它还包括对其原因和影响的调查。研究人员不断探索更好地理解rotation noise背后机制的方法。这包括研究不同材料之间的相互作用、润滑的影响以及旋转部件的几何形状。通过深入了解这些因素，工程师可以设计出创新的解决方案，以在保持性能和效率的同时最小化噪声。在各个行业中，解决rotation noise的重要性进一步凸显了监管标准的存在。许多国家已经制定了限制机械和车辆噪声排放的指导方针。制造商必须遵守这些规定，因为不遵守可能会导致法律处罚和声誉受损。总之，rotation noise是许多机械系统设计和操作中的一个重要因素。它的影响涉及用户舒适度、设备寿命和合规性。随着技术的进步，追求更安静的机器可能会继续成为工程师和设计师的优先事项。通过理解和解决rotation noise，我们可以为消费者创造更高效、更愉悦的产品，同时也为一个更安静的世界做出贡献。