canard configuration

简明释义

鸭式结构

英英释义

例句

1.Engineers are testing a new drone that incorporates a canard configuration for enhanced agility.

工程师们正在测试一种新型无人机，该无人机采用了前翼配置以增强灵活性。

2.The aircraft's design features a canard configuration, which enhances its maneuverability.

这架飞机的设计采用了前翼配置，这增强了它的机动性。

3.In the canard configuration, the small forward wings help to stabilize the aircraft during flight.

在前翼配置中，小型前翼有助于在飞行过程中稳定飞机。

4.Many modern fighter jets utilize a canard configuration to improve their performance in combat scenarios.

许多现代战斗机采用前翼配置以提高在战斗场景中的性能。

5.The canard configuration allows for shorter takeoff distances, making it ideal for carrier-based operations.

这种前翼配置允许更短的起飞距离，使其非常适合舰载操作。

作文

The term canard configuration refers to a specific aerodynamic design used in aircraft, where a small forewing or canard is placed ahead of the main wing. This configuration has gained popularity in modern aviation due to its unique advantages in stability and control. In this essay, I will explore the significance of the canard configuration in aircraft design, its benefits, and its applications in various types of aircraft.Firstly, one of the primary advantages of the canard configuration is enhanced stability. By placing a smaller wing at the front, the center of pressure is shifted forward, which helps to balance the aircraft more effectively during flight. This forward shift allows for improved pitch stability, making it less likely for the aircraft to stall. For instance, many modern fighter jets and experimental aircraft utilize this design to achieve superior maneuverability and responsiveness. The canard configuration enables pilots to have better control over the aircraft's attitude, especially during high-speed maneuvers.Additionally, the canard configuration contributes to increased lift at lower speeds. The small forewing generates additional lift, allowing the main wing to operate more efficiently. This is particularly beneficial during takeoff and landing phases, where low-speed performance is crucial. Aircraft designed with this configuration can achieve shorter takeoff distances and improved climb rates, making them suitable for various operational environments, including those with limited runway lengths.Moreover, the canard configuration can also enhance the overall aerodynamic efficiency of the aircraft. By optimizing the airflow around the wings, this design reduces drag, which can lead to better fuel efficiency. In an era where environmental concerns and fuel costs are increasingly important, the canard configuration provides a viable solution for manufacturers striving to create more sustainable aircraft. The reduction in drag not only improves fuel economy but also extends the range of the aircraft, making it more versatile for long-distance flights.Furthermore, the canard configuration has found its place in various types of aircraft beyond military jets. Many commercial and private aircraft have adopted this design to take advantage of its aerodynamic benefits. For example, the Piaggio P.180 Avanti, a popular business aircraft, features a distinctive canard configuration that enhances its performance and efficiency. The combination of speed and comfort offered by such designs has made them appealing to both pilots and passengers alike.In conclusion, the canard configuration represents a significant advancement in aircraft design, offering numerous benefits in terms of stability, lift, and aerodynamic efficiency. As aviation technology continues to evolve, the importance of innovative designs like the canard configuration will only grow. It is essential for engineers and designers to continue exploring and refining these configurations to meet the demands of modern aviation, ensuring safe, efficient, and environmentally friendly air travel for the future.

术语canard configuration指的是一种特定的气动设计，应用于飞机，其中一个小前翼或能ard位于主翼之前。由于其在稳定性和控制方面的独特优势，这种配置在现代航空中越来越受欢迎。在本文中，我将探讨canard configuration在飞机设计中的重要性、其优点及其在各种类型飞机中的应用。首先，canard configuration的主要优点之一是增强了稳定性。通过将一个较小的翼放在前面，压力中心向前移动，这有助于在飞行过程中更有效地平衡飞机。这一前移使得俯仰稳定性得到改善，从而降低了飞机失速的可能性。例如，许多现代战斗机和实验飞机采用这一设计，以实现卓越的机动性和响应能力。canard configuration使飞行员能够更好地控制飞机的姿态，尤其是在高速机动期间。此外，canard configuration还提高了低速时的升力。小前翼产生额外的升力，使主翼能够更有效地工作。这在起飞和着陆阶段尤为重要，因为低速性能至关重要。采用这种配置的飞机可以实现更短的起飞距离和更好的爬升率，使其适合于包括有限跑道长度在内的各种操作环境。此外，canard configuration也能提高飞机的整体气动效率。通过优化翼周围的气流，这种设计减少了阻力，从而提高了燃油效率。在一个环境问题和燃料成本日益重要的时代，canard configuration为制造商提供了一种切实可行的解决方案，努力创造更可持续的飞机。阻力的减少不仅提高了燃油经济性，还延长了飞机的航程，使其在长途飞行中更加多功能。此外，canard configuration已在多种类型的飞机中找到了其位置，超越了军事喷气机。许多商业和私人飞机都采用这种设计，以利用其气动优势。例如，Piaggio P.180 Avanti是一款受欢迎的商务飞机，其独特的canard configuration增强了其性能和效率。这种设计所提供的速度与舒适性的结合，使其在飞行员和乘客中都备受青睐。总之，canard configuration代表了飞机设计的一项重要进展，在稳定性、升力和气动效率方面提供了众多好处。随着航空技术的不断发展，像canard configuration这样的创新设计的重要性只会增加。工程师和设计师必须继续探索和完善这些配置，以满足现代航空的需求，确保未来安全、高效和环保的航空旅行。