antiroll force
简明释义
抗横摇力
英英释义
例句
1.The racing car's design maximizes the antiroll force 反倾斜力 to improve cornering performance.
赛车的设计最大化了反倾斜力 antiroll force以提高过弯性能。
2.When loading cargo, it's important to consider how it affects the antiroll force 反倾斜力 of the truck.
在装载货物时,重要的是考虑它如何影响卡车的反倾斜力 antiroll force。
3.To enhance safety, engineers designed a new feature that increases the antiroll force 反倾斜力 in SUVs.
为了增强安全性,工程师设计了一种新功能,以增加SUV中的反倾斜力 antiroll force。
4.The vehicle's suspension system generates an antiroll force 反倾斜力 to maintain stability during sharp turns.
车辆的悬挂系统在急转弯时产生反倾斜力 antiroll force以保持稳定。
5.Advanced algorithms can predict the required antiroll force 反倾斜力 for different driving conditions.
先进的算法可以预测不同驾驶条件下所需的反倾斜力 antiroll force。
作文
In the realm of automotive engineering, the concept of stability is paramount for both safety and performance. One of the key forces that contribute to a vehicle's stability during cornering is the antiroll force. This term refers to the force generated by various suspension systems designed to counteract the tendency of a vehicle to roll or lean excessively during turns. When a vehicle navigates a curve, centrifugal force acts outward, causing the vehicle to tilt towards the outside of the turn. The antiroll force works against this tendency, helping to maintain a level ride and ensuring that all four wheels remain in contact with the road surface.The effectiveness of the antiroll force is largely dependent on the design of the vehicle's suspension system. Many modern vehicles are equipped with advanced suspension technologies that enhance this force. For instance, anti-roll bars, also known as sway bars, are commonly used to improve a vehicle's handling characteristics. These bars connect the left and right wheels, allowing them to work together to resist body roll. When a vehicle turns, the antiroll force generated by these bars helps to keep the body stable, resulting in improved traction and control.Another critical aspect of antiroll force is its role in maintaining passenger comfort. Excessive body roll can lead to a disconcerting ride experience, making passengers feel uneasy. By effectively managing the antiroll force, engineers can ensure a smoother ride, allowing passengers to enjoy their journey without feeling the effects of sharp turns or sudden maneuvers.In addition to enhancing stability and comfort, the antiroll force also plays a significant role in vehicle safety. A vehicle that rolls excessively during cornering can easily lose traction, leading to potential accidents. By optimizing the antiroll force, manufacturers can reduce the risk of rollovers and improve overall safety ratings. This is especially crucial for taller vehicles, such as SUVs and trucks, which are more prone to tipping over due to their higher center of gravity.Furthermore, the antiroll force is not only relevant for conventional vehicles but also for performance-oriented cars. Sports cars, for example, rely heavily on precise handling and stability at high speeds. Engineers focus on maximizing the antiroll force to ensure that these vehicles can navigate sharp corners with confidence, providing drivers with an exhilarating experience without compromising safety.In conclusion, the antiroll force is a vital concept in automotive engineering that significantly impacts vehicle stability, comfort, and safety. Through the use of advanced suspension systems and anti-roll bars, manufacturers can optimize this force to enhance the driving experience. As technology continues to evolve, we can expect further innovations aimed at improving the antiroll force, ultimately leading to safer and more enjoyable vehicles for consumers worldwide.
在汽车工程领域,稳定性是安全性和性能的关键概念。一个对车辆在转弯时稳定性贡献的重要力量是抗倾斜力。这个术语指的是由各种悬挂系统产生的力,旨在抵消车辆在转弯时过度倾斜或倾斜的趋势。当车辆驶入弯道时,离心力向外作用,导致车辆向转弯外侧倾斜。抗倾斜力与这种趋势作斗争,帮助保持水平行驶,确保四个轮子都与路面接触。抗倾斜力的有效性在很大程度上取决于车辆悬挂系统的设计。许多现代车辆配备了先进的悬挂技术,以增强这一力量。例如,抗倾斜杆,也称为防侧翻杆,通常用于改善车辆的操控特性。这些杆连接左右轮,允许它们协同工作以抵抗车身倾斜。当车辆转弯时,由这些杆产生的抗倾斜力有助于保持车身稳定,从而提高牵引力和控制力。抗倾斜力的另一个关键方面是其在维持乘客舒适度方面的作用。过度的车身倾斜会导致不愉快的乘坐体验,使乘客感到不安。通过有效管理抗倾斜力,工程师可以确保更平稳的乘坐体验,让乘客在旅途中尽情享受,而不会感受到急转弯或突然操作的影响。除了增强稳定性和舒适性之外,抗倾斜力还在车辆安全中发挥着重要作用。在转弯时过度倾斜的车辆容易失去牵引力,导致潜在事故。通过优化抗倾斜力,制造商可以降低翻车风险,提高整体安全评级。这对于较高的车辆(如SUV和卡车)尤为重要,因为它们由于重心较高而更容易翻倒。此外,抗倾斜力不仅与传统车辆相关,而且与性能导向的汽车也密切相关。例如,跑车在高速行驶时非常依赖精确的操控和稳定性。工程师专注于最大化抗倾斜力,确保这些车辆能够自信地驾驭急转弯,为驾驶者提供令人兴奋的体验,而不妨碍安全。总之,抗倾斜力是汽车工程中一个重要的概念,对车辆的稳定性、舒适性和安全性具有重大影响。通过使用先进的悬挂系统和抗倾斜杆,制造商可以优化这一力量,以增强驾驶体验。随着技术的不断发展,我们可以期待进一步的创新,旨在改善抗倾斜力,最终为全球消费者提供更安全、更愉快的车辆。
