skin horse-power

简明释义

摩擦马力

英英释义

例句

1.The latest model features enhanced skin horse-power for improved acceleration.

最新型号具有增强的皮肤马力以改善加速性能。

2.In racing, every ounce of skin horse-power can make a difference in performance.

在赛车中，每一盎司的皮肤马力都能影响性能。

3.We need to calculate the skin horse-power of each car to determine which one is the fastest.

我们需要计算每辆车的皮肤马力以确定哪一辆是最快的。

4.The new engine design boasts an impressive amount of skin horse-power, allowing it to outperform its competitors.

新的发动机设计拥有令人印象深刻的皮肤马力，使其优于竞争对手。

5.The mechanic explained how the vehicle's skin horse-power was optimized for better fuel efficiency.

机械师解释了如何优化车辆的皮肤马力以提高燃油效率。

作文

In the world of engineering and mechanics, there are many terms that describe the power and efficiency of machines. One such term that often gets overlooked is skin horse-power. This phrase refers to the effective power output of a machine when considering its surface area and the frictional forces at play. Understanding skin horse-power is essential for engineers and designers who want to optimize their machines for better performance.The concept of skin horse-power can be traced back to the early days of mechanical engineering when steam engines were the primary source of power. Engineers needed a way to measure the actual power that could be harnessed from these engines, taking into account not just the horsepower generated but also the losses due to friction and heat. This led to the development of various metrics, including skin horse-power, which emphasizes the importance of surface interactions in mechanical systems.For instance, consider a car engine. While it might be rated at a certain number of horsepower, the actual power that reaches the wheels can be significantly lower due to factors like tire friction, air resistance, and even the surface texture of the tires themselves. By analyzing skin horse-power, engineers can determine how much power is effectively used in propelling the vehicle forward, allowing them to make informed decisions about design improvements.Moreover, skin horse-power is not limited to automotive applications. It is equally relevant in fields like aerospace, where understanding the friction between surfaces can lead to more efficient designs for aircraft wings and fuselages. In these cases, reducing drag and improving the interaction between surfaces can lead to significant gains in fuel efficiency and overall performance.In practical terms, engineers use skin horse-power to conduct tests and simulations that help them predict how changes in design will affect a machine's performance. For example, if a new material with a smoother surface is introduced in a component, engineers can calculate the expected increase in skin horse-power and adjust their designs accordingly. This iterative process of testing and refinement is crucial in the fast-paced world of engineering, where even small improvements can lead to substantial benefits.Furthermore, the relevance of skin horse-power extends beyond traditional engineering fields. In the realm of renewable energy, for instance, wind turbine designers must consider how the surface characteristics of blades impact the amount of energy converted from wind into usable power. By optimizing the skin horse-power of turbine blades, engineers can enhance the efficiency of wind farms, contributing to a more sustainable energy future.In conclusion, the term skin horse-power encapsulates an important aspect of mechanical efficiency that is often overshadowed by more commonly known metrics. By understanding and applying the principles of skin horse-power, engineers can improve the performance of machines across various industries, leading to innovations that benefit both consumers and the environment. As technology continues to evolve, the significance of skin horse-power will undoubtedly grow, making it a key concept for future engineers to master.

在工程和机械的世界中，有许多术语描述机器的功率和效率。其中一个常常被忽视的术语是skin horse-power。这个短语指的是考虑到表面积和摩擦力的情况下，机器的有效功率输出。理解skin horse-power对于希望优化机器以获得更好性能的工程师和设计师来说至关重要。skin horse-power的概念可以追溯到机械工程的早期，当时蒸汽机是主要的动力来源。工程师需要一种方法来测量这些发动机可以利用的实际功率，不仅考虑产生的马力，还考虑由于摩擦和热量造成的损失。这导致了包括skin horse-power在内的各种指标的发展，强调了表面相互作用在机械系统中的重要性。例如，考虑一台汽车发动机。虽然它可能被标定为某个马力，但实际到达车轮的功率可能因为轮胎摩擦、空气阻力甚至轮胎本身的表面纹理而显著降低。通过分析skin horse-power，工程师可以确定有效用于推动车辆前进的功率，从而使他们能够做出关于设计改进的明智决策。此外，skin horse-power不仅限于汽车应用。在航空航天等领域，了解表面之间的摩擦如何影响飞机机翼和机身的设计同样相关。在这些情况下，减少阻力和改善表面之间的相互作用可以带来燃油效率和整体性能的显著提升。在实际操作中，工程师使用skin horse-power进行测试和模拟，帮助他们预测设计变化将如何影响机器的性能。例如，如果在某个组件中引入了具有更光滑表面的新材料，工程师可以计算预期的skin horse-power增加，并相应调整设计。这种测试和改进的迭代过程在快速发展的工程世界中至关重要，因为即使是小的改进也能带来可观的收益。此外，skin horse-power的相关性不仅限于传统的工程领域。在可再生能源领域，例如，风力涡轮机设计师必须考虑叶片的表面特性如何影响从风中转换为可用功率的能量。通过优化涡轮叶片的skin horse-power，工程师可以提高风电场的效率，为更可持续的能源未来做出贡献。总之，术语skin horse-power概括了一个重要的机械效率方面，这一方面常常被更常见的指标所掩盖。通过理解和应用skin horse-power的原理，工程师可以改善各行业机器的性能，推动有利于消费者和环境的创新。随着技术的不断发展，skin horse-power的重要性无疑会增长，使其成为未来工程师必须掌握的关键概念。