turning radius

简明释义

回转半径

英英释义

例句

1.The car's turning radius is smaller than that of a truck, making it easier to navigate tight spaces.

这辆车的转弯半径比卡车小，使其更容易在狭窄的空间中行驶。

2.When choosing a vehicle for city driving, consider the turning radius to ensure it can handle urban streets.

在选择城市驾驶的车辆时，要考虑转弯半径，以确保它能适应城市街道。

3.In off-road conditions, a vehicle with a tight turning radius can maneuver around obstacles more effectively.

在越野条件下，具有紧凑转弯半径的车辆可以更有效地绕过障碍物。

4.The turning radius of this bus makes it difficult to navigate through narrow alleyways.

这辆公交车的转弯半径使其难以在狭窄的小巷中行驶。

5.A larger turning radius can be beneficial for stability at high speeds.

较大的转弯半径在高速行驶时有利于稳定性。

作文

The concept of turning radius is crucial in various fields, particularly in automotive engineering and transportation. The turning radius refers to the minimum radius of a circular turn that a vehicle can make while maintaining control and stability. Understanding this concept is essential for designing vehicles, roads, and even urban environments. In this essay, I will explore the significance of turning radius and its implications in real-world scenarios.To begin with, the turning radius is influenced by several factors, including the size and design of the vehicle, the speed at which it is traveling, and the surface conditions of the road. For example, larger vehicles such as buses and trucks typically have a larger turning radius compared to smaller cars. This means that when navigating tight corners or narrow streets, larger vehicles may struggle to maneuver effectively. This is why understanding the turning radius is vital for city planners and traffic engineers when designing roadways and intersections.Moreover, the turning radius plays a significant role in safety. A vehicle with a large turning radius may require more space to execute a turn, which can lead to potential hazards in crowded areas. For instance, if a truck attempts to make a wide turn in a busy urban environment, it may encroach on adjacent lanes, posing risks to pedestrians and other vehicles. Therefore, knowing the turning radius of different types of vehicles allows for better traffic management and helps prevent accidents.In addition to safety, the turning radius also affects vehicle performance and handling. Vehicles designed for sport or performance often have a smaller turning radius, allowing them to navigate sharp corners more effectively. This characteristic is particularly important in motorsports, where agility and quick maneuvers can determine the outcome of a race. Car manufacturers take the turning radius into account when designing vehicles, ensuring that they meet the needs of their target audience.Furthermore, the turning radius is not only relevant for land vehicles but also for aircraft and boats. For example, when an airplane is taxiing on a runway or making a turn during takeoff or landing, the turning radius becomes a critical factor in ensuring safe operations. Similarly, boats must consider their turning radius when navigating through narrow channels or docking at marinas. In each case, understanding the turning radius is essential for effective maneuvering and operational safety.In conclusion, the turning radius is a fundamental aspect of vehicle dynamics that has far-reaching implications across various modes of transportation. From enhancing safety on the roads to improving vehicle performance, understanding the turning radius is vital for engineers, city planners, and drivers alike. As we continue to develop new technologies and designs in the transportation sector, the importance of the turning radius will remain a key consideration in creating efficient and safe transportation systems.

“转弯半径”这一概念在多个领域中至关重要，尤其是在汽车工程和交通运输中。“转弯半径”指的是车辆在保持控制和稳定的情况下，可以进行的最小圆形转弯半径。理解这一概念对于设计车辆、道路甚至城市环境至关重要。在这篇文章中，我将探讨“转弯半径”的重要性及其在现实场景中的影响。首先，“转弯半径”受到多个因素的影响，包括车辆的大小和设计、行驶速度以及道路的表面条件。例如，较大的车辆，如公交车和卡车，通常具有比小型汽车更大的“转弯半径”。这意味着在导航狭窄的拐角或街道时，较大车辆可能难以有效操控。这就是为什么了解“转弯半径”对城市规划者和交通工程师在设计道路和交叉口时至关重要。此外，“转弯半径”在安全性方面也发挥着重要作用。具有大“转弯半径”的车辆可能需要更多空间来执行转弯，这可能导致在拥挤区域出现潜在危险。例如，如果一辆卡车试图在繁忙的城市环境中进行宽转弯，它可能会侵占邻近车道，从而对行人和其他车辆构成风险。因此，了解不同类型车辆的“转弯半径”有助于更好地管理交通，并帮助防止事故。除了安全性外，“转弯半径”还影响车辆的性能和操控性。为运动或性能设计的车辆通常具有较小的“转弯半径”，使它们能够更有效地应对急转弯。这一特性在赛车运动中尤为重要，因为敏捷性和快速机动可以决定比赛的结果。汽车制造商在设计车辆时会考虑“转弯半径”，确保其满足目标受众的需求。此外，“转弯半径”不仅与陆地车辆相关，还与飞机和船只有关。例如，当飞机在跑道上滑行或在起飞或着陆时转弯时，“转弯半径”成为确保安全操作的关键因素。同样，船只在狭窄的航道中航行或在码头停靠时也必须考虑其“转弯半径”。在每种情况下，理解“转弯半径”对于有效操控和操作安全至关重要。总之，“转弯半径”是车辆动态中的一个基本方面，对各种交通方式具有深远的影响。从增强道路安全到改善车辆性能，理解“转弯半径”对工程师、城市规划者和驾驶员而言都是至关重要的。随着我们继续在交通运输领域开发新技术和设计，“转弯半径”的重要性将始终是创建高效、安全交通系统的关键考虑因素。