traction power

简明释义

牵引力

英英释义

例句

1.The traction power 牵引力 of this tractor makes it ideal for farm work.

这款拖拉机的牵引力 牵引力 使其非常适合农田作业。

2.Higher traction power 牵引力 is essential for climbing steep grades.

更高的牵引力 牵引力 对于攀爬陡坡至关重要。

3.The train's traction power 牵引力 allows it to pull heavy loads over long distances.

火车的牵引力 牵引力 使其能够在长距离内拉动重载。

4.The engineers are testing the traction power 牵引力 of the new hybrid bus model.

工程师们正在测试新型混合动力公交车模型的牵引力 牵引力 。

5.In electric vehicles, the traction power 牵引力 is generated by electric motors.

在电动车中，牵引力 牵引力 是由电动机产生的。

作文

In the world of transportation and engineering, the term traction power refers to the force that is used to move vehicles along a track or road. This concept is crucial in various modes of transport, including trains, trams, and even some types of heavy machinery. Understanding traction power is essential for engineers and designers who aim to create efficient and effective transportation systems. The fundamental principle behind traction power is the interaction between the wheels of a vehicle and the surface it moves on. For instance, in railways, traction power is generated by the locomotive, which uses its engines to create enough force to pull multiple carriages, even when they are heavily loaded. The efficiency of this power can be influenced by several factors, including the weight of the train, the gradient of the tracks, and the type of wheels used. In a broader context, traction power is not limited to just trains. It plays a significant role in the automotive industry as well. For cars, traction power is necessary for acceleration and maintaining speed on different terrains. Vehicles equipped with all-wheel drive systems often have a better traction power because they can distribute the engine's force to all four wheels, enhancing grip on slippery or uneven surfaces. Moreover, the concept of traction power extends beyond traditional vehicles. In the realm of electric vehicles, traction power is generated by electric motors that provide instantaneous torque, allowing for quick acceleration. This characteristic makes electric vehicles appealing to consumers looking for performance and efficiency. Engineers continuously strive to improve traction power through advancements in technology. Innovations such as regenerative braking systems help to enhance the overall efficiency of vehicles by converting kinetic energy back into usable power. By doing so, they not only improve traction power but also contribute to reducing energy consumption and emissions. Furthermore, understanding traction power is vital for safety. Insufficient traction power can lead to accidents, particularly in adverse weather conditions, where vehicles may struggle to maintain control. Therefore, manufacturers invest heavily in research and development to ensure that their vehicles can achieve optimal traction power under various circumstances. In conclusion, traction power is a fundamental aspect of transportation that influences the performance and safety of vehicles. Whether it is a train pulling a heavy load or a car navigating a winding road, the ability to generate and maintain traction power is critical. As technology continues to evolve, the future of traction power looks promising, with innovations aimed at making transportation more efficient, safe, and environmentally friendly.

在交通和工程的世界中，术语牵引力指的是用于沿轨道或道路移动车辆的力量。这个概念在各种交通方式中至关重要，包括火车、有轨电车，甚至某些类型的重型机械。理解牵引力对于旨在创建高效有效运输系统的工程师和设计师来说是必不可少的。牵引力背后的基本原理是车辆的轮子与其移动表面之间的相互作用。例如，在铁路中，牵引力由机车产生，机车利用其发动机产生足够的力量来拉动多节车厢，即使它们装载很重。这种力量的效率可能会受到多个因素的影响，包括列车的重量、轨道的坡度以及使用的轮子的类型。在更广泛的背景下，牵引力并不仅限于火车。它在汽车工业中也扮演着重要角色。对于汽车来说，牵引力是加速和在不同地形上保持速度所必需的。配备全轮驱动系统的车辆通常具有更好的牵引力，因为它们可以将发动机的力量分配到四个轮子上，从而增强在滑溜或不平坦表面上的抓地力。此外，牵引力的概念超出了传统车辆。在电动车领域，牵引力由电动机产生，电动机提供瞬时扭矩，使得快速加速成为可能。这一特性使得电动车对寻求性能和效率的消费者具有吸引力。工程师们不断努力通过技术进步来改善牵引力。例如，能量回收制动系统的创新有助于通过将动能转化为可用能量来提高车辆的整体效率。通过这样做，它们不仅改善了牵引力，还帮助减少能源消耗和排放。此外，理解牵引力对于安全至关重要。不足的牵引力可能导致事故，特别是在恶劣天气条件下，车辆可能难以保持控制。因此，制造商在研究和开发上投入大量资金，以确保他们的车辆能够在各种情况下实现最佳的牵引力。总之，牵引力是交通运输的一个基本方面，影响着车辆的性能和安全。无论是拉动重载的火车还是在蜿蜒道路上行驶的汽车，产生和维持牵引力的能力都是至关重要的。随着技术的不断发展，牵引力的未来看起来充满希望，创新旨在使交通运输更加高效、安全和环保。