turning radius

简明释义

回转半径

英英释义

例句

1.When choosing a vehicle for city driving, consider its turning radius for better navigation.

在选择城市驾驶的车辆时，考虑其转弯半径以便更好地导航。

2.A smaller turning radius allows for easier parking in crowded areas.

较小的转弯半径使得在拥挤区域停车更加容易。

3.The bus has a larger turning radius compared to a sedan, which affects its ability to make sharp turns.

与轿车相比，公交车的转弯半径较大，这影响了它进行急转弯的能力。

4.The car's turning radius is small, making it easy to maneuver in tight spaces.

这辆车的转弯半径很小，使其在狭小空间内易于操控。

5.The turning radius of the truck made it difficult to navigate through the narrow streets.

这辆卡车的转弯半径使得它在狭窄街道上行驶困难。

作文

The concept of turning radius is crucial in various fields, especially in automotive engineering and urban planning. The turning radius refers to the smallest circular turn that a vehicle can make while navigating a corner. Understanding this term is essential for designing roads, intersections, and even parking lots. A vehicle's turning radius can significantly impact its maneuverability and safety on the road.In automotive design, the turning radius is influenced by several factors, including the wheelbase, steering mechanism, and the dimensions of the tires. For example, a sports car typically has a smaller turning radius compared to a large SUV, allowing it to navigate tight corners more efficiently. This characteristic is critical not only for performance but also for ensuring the safety of the driver and passengers. A smaller turning radius means that a vehicle can change direction quickly, which is particularly important in emergency situations.From an urban planning perspective, the turning radius affects how streets and intersections are designed. Engineers must consider the turning radius of various vehicles when creating road layouts to ensure that all types of vehicles can navigate without difficulty. For instance, if a road has a sharp turn with a small turning radius, larger vehicles like buses or trucks may struggle to make the turn without encroaching on adjacent lanes. This can lead to accidents and traffic congestion, highlighting the importance of accommodating the turning radius of different vehicles.Moreover, the turning radius also plays a significant role in the design of roundabouts and traffic circles. These structures are designed to facilitate the smooth flow of traffic while minimizing the risk of collisions. By understanding the turning radius of various vehicles, planners can create roundabouts that allow for safe and efficient navigation. A well-designed roundabout considers the largest possible turning radius needed for trucks while still accommodating smaller vehicles.In conclusion, the turning radius is a fundamental aspect of vehicle dynamics and urban infrastructure. It affects everything from the design of cars to the layout of city streets. By understanding the implications of the turning radius, engineers and planners can create safer, more efficient transportation systems. As cities continue to grow and evolve, the importance of considering the turning radius will only increase, making it a vital topic for those involved in transportation and urban development.

“转弯半径”的概念在多个领域中至关重要，尤其是在汽车工程和城市规划中。“转弯半径”是指车辆在转弯时能够做出的最小圆形转弯。理解这个术语对于设计道路、交叉口甚至停车场至关重要。车辆的“转弯半径”会显著影响其在道路上的机动性和安全性。在汽车设计中，“转弯半径”受多个因素的影响，包括轴距、转向机制和轮胎的尺寸。例如，跑车的“转弯半径”通常比大型SUV小，这使得它可以更高效地通过狭窄的转弯。这一特性不仅对性能至关重要，还确保了驾驶员和乘客的安全。较小的“转弯半径”意味着车辆可以快速改变方向，这在紧急情况下尤为重要。从城市规划的角度来看，“转弯半径”影响着街道和交叉口的设计。工程师必须考虑各种车辆的“转弯半径”，以确保所有类型的车辆都能顺利通行。例如，如果一条道路有一个急转弯，且“转弯半径”较小，那么大型车辆如公交车或卡车可能会在转弯时难以避免侵占邻近车道。这可能导致事故和交通拥堵，突显了适应不同车辆“转弯半径”的重要性。此外，“转弯半径”在环形交叉口和交通圈的设计中也发挥着重要作用。这些结构旨在促进交通的顺畅流动，同时最大限度地减少碰撞风险。通过了解各种车辆的“转弯半径”，规划人员可以创建允许安全高效导航的环形交叉口。设计良好的环形交叉口考虑到大型车辆所需的最大“转弯半径”，同时仍可容纳较小的车辆。总之，“转弯半径”是车辆动力学和城市基础设施的基本方面。它影响从汽车设计到城市街道布局的一切。通过理解“转弯半径”的影响，工程师和规划人员可以创建更安全、更高效的交通系统。随着城市的不断发展和演变，考虑“转弯半径”的重要性只会增加，使其成为交通和城市发展相关人员的重要话题。