traction dynamometer

简明释义

拉力测力计

英英释义

例句

1.During the experiment, the traction dynamometer recorded the maximum force applied.

在实验过程中，牵引测功器记录了施加的最大力。

2.In the laboratory, we calibrated the traction dynamometer for accurate readings.

在实验室，我们对牵引测功器进行了校准，以确保读数准确。

3.We need to replace the old traction dynamometer with a more advanced model.

我们需要用更先进的型号替换旧的牵引测功器。

4.The traction dynamometer is essential for testing the performance of electric motors.

对于测试电动机的性能来说，牵引测功器是必不可少的。

5.The engineer used a traction dynamometer to measure the pulling force of the train.

工程师使用牵引测功器来测量火车的牵引力。

作文

In the realm of engineering and mechanics, various tools and instruments are utilized to measure different parameters. One such essential instrument is the traction dynamometer, which plays a crucial role in evaluating the performance of vehicles and machinery. The traction dynamometer is designed to measure the force exerted by a vehicle's wheels on the ground, providing valuable data that can be used to assess traction, efficiency, and overall performance.The primary function of a traction dynamometer is to quantify the traction force that a vehicle can generate under various conditions. This measurement is vital for engineers and designers who aim to optimize vehicle performance. By understanding how much traction a vehicle can achieve, manufacturers can make informed decisions regarding tire design, suspension systems, and engine power output.One of the significant advantages of using a traction dynamometer is its ability to simulate real-world conditions in a controlled environment. For instance, when testing a car's performance, engineers can adjust parameters such as road surface, incline, and load weight to see how these factors affect traction. This controlled testing allows for a more comprehensive understanding of how a vehicle will perform in different scenarios.Moreover, the data obtained from a traction dynamometer can be instrumental in enhancing safety features in vehicles. By analyzing traction force, engineers can identify potential risks associated with skidding or losing control. This information can then be used to improve anti-lock braking systems (ABS) and traction control systems (TCS), ultimately leading to safer driving experiences.The traction dynamometer is also widely used in motorsports, where every fraction of a second counts. Racing teams utilize this equipment to fine-tune their vehicles for optimal performance on the track. By measuring the traction force during acceleration and cornering, teams can adjust their strategies to gain a competitive edge. The insights gained from the traction dynamometer can lead to better tire choices and suspension settings, which are critical for achieving maximum speed and stability.In addition to automotive applications, traction dynamometers find use in various industries, including aerospace and railway. For example, in the aviation sector, engineers might use a traction dynamometer to test the thrust produced by aircraft engines under different conditions. Similarly, in railways, this equipment can help assess the adhesion between train wheels and tracks, which is vital for safe and efficient train operations.In conclusion, the traction dynamometer is an invaluable tool in the field of engineering, providing critical insights into vehicle performance and safety. Its ability to measure traction force under various conditions makes it an essential instrument for manufacturers and engineers alike. Whether in the automotive industry, motorsports, or other sectors, the data gathered from a traction dynamometer can significantly influence design decisions and enhance overall performance. As technology continues to advance, the role of the traction dynamometer will undoubtedly evolve, further contributing to the development of safer and more efficient vehicles and machinery.

在工程和机械领域，各种工具和仪器被用于测量不同的参数。其中一种重要的仪器是牵引测功机，它在评估车辆和机械性能方面发挥着至关重要的作用。牵引测功机旨在测量车辆轮子对地面的施加力，提供有价值的数据，可用于评估牵引力、效率和整体性能。牵引测功机的主要功能是量化车辆在各种条件下可以产生的牵引力。这一测量对希望优化车辆性能的工程师和设计师至关重要。通过了解车辆能够实现多少牵引力，制造商可以就轮胎设计、悬挂系统和发动机功率输出做出明智的决策。使用牵引测功机的一大显著优势是其能够在受控环境中模拟真实世界的条件。例如，在测试汽车性能时，工程师可以调整路面、坡度和负载重量等参数，以观察这些因素如何影响牵引力。这种受控测试使得更全面地理解车辆在不同场景下的表现成为可能。此外，从牵引测功机获得的数据对于增强车辆的安全特性也具有重要意义。通过分析牵引力，工程师可以识别与打滑或失控相关的潜在风险。然后，这些信息可用于改善防抱死刹车系统（ABS）和牵引控制系统（TCS），最终导致更安全的驾驶体验。牵引测功机在赛车运动中也得到广泛应用，在这里每一秒钟都至关重要。赛车队利用这套设备来微调他们的车辆，以获得最佳的赛道表现。通过测量加速和过弯期间的牵引力，车队可以调整策略以获得竞争优势。从牵引测功机获得的洞察可以导致更好的轮胎选择和悬挂设置，这对于实现最大速度和稳定性至关重要。除了汽车应用，牵引测功机还在航空航天和铁路等多个行业中得到应用。例如，在航空部门，工程师可能会使用牵引测功机来测试飞机发动机在不同条件下产生的推力。类似地，在铁路中，这种设备可以帮助评估火车轮子与轨道之间的附着力，这对于安全和高效的列车运行至关重要。总之，牵引测功机是工程领域中一种不可或缺的工具，为车辆性能和安全提供了关键的见解。它在各种条件下测量牵引力的能力使其成为制造商和工程师的重要仪器。无论是在汽车工业、赛车运动还是其他领域，从牵引测功机收集的数据都可以显著影响设计决策并提升整体性能。随着技术的不断进步，牵引测功机的作用无疑将不断演变，进一步促进更安全、更高效的车辆和机械的发展。