frictional horse-power

简明释义

摩擦马力

英英释义

例句

1.A well-lubricated engine can significantly lower its frictional horse-power 摩擦马力 loss.

润滑良好的发动机可以显著降低其frictional horse-power 摩擦马力损失。

2.The engine's efficiency can be measured by calculating the frictional horse-power 摩擦马力 lost due to internal resistance.

通过计算由于内部阻力而损失的frictional horse-power 摩擦马力，可以衡量发动机的效率。

3.In racing applications, minimizing frictional horse-power 摩擦马力 is crucial for achieving higher speeds.

在赛车应用中，最小化frictional horse-power 摩擦马力对于实现更高的速度至关重要。

4.When evaluating a vehicle's performance, it's important to consider the frictional horse-power 摩擦马力 that affects acceleration.

在评估车辆性能时，考虑影响加速的frictional horse-power 摩擦马力是很重要的。

5.Engine designers often focus on reducing frictional horse-power 摩擦马力 to improve overall performance.

发动机设计师通常专注于减少frictional horse-power 摩擦马力以提高整体性能。

作文

Understanding the concept of frictional horse-power is crucial for anyone involved in mechanical engineering or related fields. This term refers to the amount of power that is lost due to friction in a mechanical system. In simpler terms, it represents the energy that is consumed to overcome the resistance caused by friction between moving parts. The study of frictional horse-power allows engineers to design more efficient machines and systems by minimizing energy loss.Friction is an inevitable part of any mechanical operation. When two surfaces come into contact and move against each other, friction occurs. This force can lead to wear and tear on components, reducing their lifespan and efficiency. Therefore, understanding frictional horse-power helps engineers make informed decisions about material selection, lubrication, and design modifications to enhance performance.In practical applications, calculating frictional horse-power involves measuring the frictional forces acting on a system and determining how much power is needed to counteract these forces. For example, in a motor, the output power is often reduced by the amount of frictional horse-power generated within the motor itself. By accounting for this loss, engineers can better estimate the overall efficiency of the system.Moreover, the significance of frictional horse-power extends beyond just mechanical systems. It is also relevant in fields such as automotive engineering, where understanding the frictional losses in engines and drivetrains can lead to improvements in fuel efficiency and performance. For instance, by reducing frictional horse-power, a car can achieve better mileage and lower emissions, contributing to environmental sustainability.In addition to its application in engineering, the concept of frictional horse-power can also be understood from a theoretical perspective. The laws of physics dictate that energy cannot be created or destroyed; it can only change forms. Therefore, when energy is lost to friction, it is transformed into heat rather than being utilized for productive work. This principle is fundamental in thermodynamics and plays a critical role in understanding energy efficiency across various systems.Furthermore, advancements in technology have led to the development of materials and coatings that reduce friction, thus lowering frictional horse-power. Innovations such as synthetic lubricants, advanced bearing designs, and surface treatments are all aimed at minimizing frictional losses. These technologies not only improve the performance of machines but also contribute to cost savings and increased reliability.In conclusion, comprehending frictional horse-power is essential for optimizing mechanical systems. As industries strive for greater efficiency and sustainability, addressing frictional losses will remain a key focus. Engineers must continue to explore ways to reduce frictional horse-power through innovative designs and materials, ensuring that machines operate at their highest potential while conserving energy and resources. By embracing this knowledge, we can pave the way for a more efficient and sustainable future in engineering and technology.

理解摩擦马力的概念对于任何从事机械工程或相关领域的人来说都是至关重要的。这个术语指的是在机械系统中因摩擦而损失的功率。简单来说，它代表了克服因运动部件之间摩擦而产生的阻力所消耗的能量。对摩擦马力的研究使工程师能够通过最小化能量损失来设计更高效的机器和系统。摩擦是任何机械操作中不可避免的一部分。当两个表面接触并相互移动时，就会发生摩擦。这种力量可能导致部件的磨损，从而减少它们的使用寿命和效率。因此，了解摩擦马力可以帮助工程师在材料选择、润滑和设计修改方面做出明智的决策，以提高性能。在实际应用中，计算摩擦马力涉及测量作用于系统上的摩擦力，并确定需要多少功率来抵消这些力量。例如，在电动机中，输出功率通常会因电动机内部产生的摩擦马力而减少。通过考虑这种损失，工程师可以更好地估计系统的整体效率。此外，摩擦马力的重要性不仅仅局限于机械系统。在汽车工程等领域，理解发动机和传动系统中的摩擦损失可以改善燃油效率和性能。例如，通过减少摩擦马力，汽车可以实现更好的油耗和更低的排放，有助于环境可持续性。除了在工程中的应用，摩擦马力的概念也可以从理论角度进行理解。物理学定律规定，能量不能被创造或销毁；它只能改变形式。因此，当能量因摩擦而损失时，它被转化为热量，而不是用于生产性工作。这个原则在热力学中是基础，并在理解各种系统的能量效率时起着关键作用。此外，技术的进步导致了减少摩擦的材料和涂层的发展，从而降低了摩擦马力。合成润滑剂、先进的轴承设计和表面处理等创新都旨在最小化摩擦损失。这些技术不仅提高了机器的性能，还节省了成本并增加了可靠性。总之，理解摩擦马力对于优化机械系统至关重要。在各行各业追求更高效率和可持续性的过程中，解决摩擦损失将始终是一个关键焦点。工程师必须继续探索通过创新设计和材料来减少摩擦马力的方法，确保机器以其最高潜力运行，同时节约能源和资源。通过接受这一知识，我们可以为工程和技术的更高效和可持续的未来铺平道路。