mechanical transmission
简明释义
机械传动
英英释义
例句
1.Understanding mechanical transmission systems can help engineers design better machines.
理解机械传动系统可以帮助工程师设计更好的机器。
2.The efficiency of a vehicle often depends on the quality of its mechanical transmission.
一辆车的效率往往取决于其机械传动的质量。
3.The bicycle's gears rely on mechanical transmission to change speeds.
自行车的齿轮依赖于机械传动来改变速度。
4.In many industrial machines, mechanical transmission is essential for efficient operation.
在许多工业机器中,机械传动对高效运行至关重要。
5.The car uses a mechanical transmission to convert engine power into motion.
这辆车使用机械传动将发动机动力转化为运动。
作文
Mechanical transmission is a fundamental concept in engineering and physics, referring to the process of transferring power from one component to another through mechanical means. This method of power transfer is essential in various applications, ranging from simple machines to complex industrial systems. Understanding mechanical transmission (机械传动) is crucial for anyone involved in designing, operating, or maintaining machinery.The principles of mechanical transmission (机械传动) can be observed in everyday devices. For instance, consider the bicycle, where pedaling generates energy that is transmitted through the chain to the wheels, propelling the rider forward. This simple example illustrates how mechanical components work together to facilitate motion. In more advanced applications, such as automobiles, mechanical transmission (机械传动) systems include gears, clutches, and driveshafts that collectively enable the vehicle to operate efficiently under various conditions.One of the key advantages of mechanical transmission (机械传动) is its reliability. Mechanical systems are typically robust and can withstand significant wear and tear, making them ideal for heavy-duty applications. Additionally, they do not require external power sources, such as electricity or hydraulics, which can introduce complications and increase operational costs. Instead, mechanical transmission (机械传动) relies on physical components that can be easily maintained and repaired, ensuring longevity and sustainability.However, there are challenges associated with mechanical transmission (机械传动) as well. One major concern is efficiency. Energy losses can occur due to friction between moving parts, leading to decreased performance. Engineers continually strive to improve designs by using materials that reduce friction, such as advanced composites or lubricants. Another challenge is the complexity of some mechanical systems. As machines become more sophisticated, the design and integration of mechanical transmission (机械传动) components can become increasingly intricate, requiring specialized knowledge and skills.In conclusion, mechanical transmission (机械传动) is an indispensable aspect of modern technology, enabling the transfer of power in a wide array of machines and devices. Its reliability and efficiency make it a preferred choice in many industries, while ongoing research and development aim to address its limitations. By understanding the principles and applications of mechanical transmission (机械传动), engineers and technicians can enhance their ability to innovate and optimize mechanical systems, ultimately contributing to advancements in technology and industry.
机械传动是工程和物理学中的一个基本概念,指的是通过机械手段将动力从一个组件转移到另一个组件的过程。这种动力传递方法在各种应用中都是至关重要的,从简单的机器到复杂的工业系统。理解机械传动(mechanical transmission)对任何参与设计、操作或维护机械的人来说都是至关重要的。机械传动(mechanical transmission)的原理可以在日常设备中观察到。例如,考虑一下自行车,踩踏板产生的能量通过链条传递到车轮,推动骑行者前进。这个简单的例子说明了机械组件如何协同工作以促进运动。在更先进的应用中,例如汽车,机械传动(mechanical transmission)系统包括齿轮、离合器和传动轴,这些组件共同使车辆在各种条件下高效运行。机械传动(mechanical transmission)的一个主要优点是其可靠性。机械系统通常非常坚固,可以承受相当大的磨损,因此非常适合重型应用。此外,它们不需要外部电源,例如电力或液压,这可能会引入复杂性并增加运营成本。相反,机械传动(mechanical transmission)依赖于可以轻松维护和修理的物理组件,从而确保了其耐久性和可持续性。然而,机械传动(mechanical transmission)也面临一些挑战。一个主要问题是效率。由于运动部件之间的摩擦,可能会导致能量损失,从而降低性能。工程师们不断努力通过使用减少摩擦的材料(如先进的复合材料或润滑剂)来改善设计。另一个挑战是某些机械系统的复杂性。随着机器变得越来越复杂,机械传动(mechanical transmission)组件的设计和集成可能变得越来越复杂,需要专业的知识和技能。总之,机械传动(mechanical transmission)是现代技术中不可或缺的一个方面,使得在各种机器和设备中能够传递动力。它的可靠性和效率使其成为许多行业的首选,而持续的研究和开发旨在解决其局限性。通过理解机械传动(mechanical transmission)的原理和应用,工程师和技术人员可以增强他们的创新和优化机械系统的能力,最终促进技术和工业的进步。
