maximum turning ability

简明释义

最大回转性能

英英释义

例句

1.The pilot was trained to utilize the aircraft's maximum turning ability during emergency situations.

飞行员接受了训练，以便在紧急情况下利用飞机的最大转向能力。

2.For off-road vehicles, having maximum turning ability is crucial for maneuvering through tight trails.

对于越野车来说，拥有最大转向能力对于在狭窄小径中灵活行驶至关重要。

3.In drone racing, pilots need to optimize their equipment for maximum turning ability to gain an edge over competitors.

在无人机比赛中，飞行员需要优化他们的设备以获得最大转向能力，从而在竞争中占据优势。

4.The engineers tested the vehicle's maximum turning ability on various surfaces to ensure safety and performance.

工程师们在各种表面上测试了该车辆的最大转向能力，以确保安全性和性能。

5.The new sports car is designed with a focus on achieving maximum turning ability, allowing it to navigate sharp corners effortlessly.

这款新跑车的设计重点在于实现最大转向能力，使其能够轻松应对急转弯。

作文

In the world of engineering and design, the concept of maximum turning ability plays a crucial role, especially in the fields of automotive and aerospace industries. The term maximum turning ability refers to the highest capability of a vehicle or aircraft to change its direction effectively without losing stability or control. This characteristic is vital for ensuring safety and performance during various maneuvers, particularly in high-speed situations.When engineers design vehicles, they must consider numerous factors that contribute to the maximum turning ability. These include the vehicle's center of gravity, weight distribution, and suspension system. For instance, a lower center of gravity typically enhances a vehicle's stability, allowing it to make sharper turns without tipping over. Additionally, the use of advanced materials and technologies can improve the responsiveness of the steering system, further enhancing the maximum turning ability.In the automotive industry, sports cars are often engineered with an emphasis on achieving the best possible maximum turning ability. These vehicles are designed to handle tight corners at high speeds, which requires precise engineering and a deep understanding of physics. Features such as wider tires, aerodynamic designs, and sophisticated traction control systems all contribute to maximizing a car's turning capabilities.Similarly, in aviation, the maximum turning ability of an aircraft is critical for maneuverability. Fighter jets, for example, are built to perform rapid turns and changes in altitude. Engineers must carefully balance the aircraft's weight, wing design, and engine power to achieve optimal performance. A jet's ability to turn quickly can be a decisive factor in aerial combat, making the understanding of maximum turning ability essential for military applications.Moreover, the concept of maximum turning ability is not limited to just vehicles and aircraft; it also applies to various machines and equipment used in different industries. For example, cranes and excavators require a certain level of turning ability to navigate work sites efficiently. Their design must allow for maximum maneuverability while maintaining safety standards.In conclusion, the maximum turning ability is a fundamental aspect of engineering that affects the performance and safety of vehicles and machines. Whether in the context of racing cars or fighter jets, understanding how to optimize this ability can lead to significant advancements in technology and design. As we continue to innovate and push the boundaries of what is possible, the principles behind maximum turning ability will remain a key area of focus for engineers and designers alike. By prioritizing this aspect, we can ensure that vehicles and equipment are not only efficient but also safe and reliable for users around the world.

在工程和设计的世界中，最大转向能力的概念发挥着至关重要的作用，尤其是在汽车和航空航天行业。术语最大转向能力是指车辆或飞机在不失去稳定性或控制的情况下有效改变方向的最高能力。这一特性对于确保在各种机动过程中，特别是在高速情况下的安全性和性能至关重要。当工程师设计车辆时，他们必须考虑许多因素，这些因素会影响最大转向能力。这些因素包括车辆的重心、重量分布和悬挂系统。例如，较低的重心通常可以增强车辆的稳定性，使其能够在不翻车的情况下进行更急的转弯。此外，使用先进材料和技术可以提高转向系统的响应能力，进一步增强最大转向能力。在汽车行业，跑车通常被设计成强调实现最佳的最大转向能力。这些车辆被设计成能够以高速处理紧急转弯，这需要精确的工程设计和对物理学的深刻理解。更宽的轮胎、空气动力学设计和复杂的牵引控制系统等特性都共同促进了最大化汽车的转向能力。同样，在航空领域，飞机的最大转向能力对于机动性至关重要。例如，战斗机被制造成能够快速转弯和改变高度。工程师必须仔细平衡飞机的重量、机翼设计和发动机功率，以达到最佳性能。喷气式飞机快速转弯的能力可能是空战中的决定性因素，因此理解最大转向能力对于军事应用至关重要。此外，最大转向能力的概念并不仅限于车辆和飞机，它还适用于不同行业中使用的各种机器和设备。例如，起重机和挖掘机需要一定程度的转向能力，以有效地导航工作现场。它们的设计必须允许最大机动性，同时保持安全标准。总之，最大转向能力是影响车辆和机器性能与安全的基本方面。无论是在赛车还是战斗机的背景下，理解如何优化这种能力可以带来技术和设计上的重大进步。随着我们不断创新并推动可能性的边界，最大转向能力背后的原则将继续成为工程师和设计师关注的关键领域。通过优先考虑这一方面，我们可以确保车辆和设备不仅高效，而且对全球用户安全可靠。