flying wing
简明释义
飞翼式飞机
英英释义
A flying wing is a type of aircraft design that has no fuselage or tail, where the wings provide all the lift and control surfaces necessary for flight. | 飞翼是一种飞机设计,没有机身或尾翼,机翼提供了飞行所需的所有升力和控制表面。 |
例句
1.The military is developing a new drone that utilizes a flying wing (飞翼) structure for better aerodynamics.
军方正在开发一种新的无人机,采用flying wing (飞翼)结构以获得更好的空气动力学性能。
2.Engineers are experimenting with a flying wing (飞翼) configuration to improve fuel efficiency.
工程师们正在尝试一种flying wing (飞翼)配置,以提高燃油效率。
3.NASA has been researching flying wing (飞翼) designs for their next generation of aircraft.
NASA一直在研究他们下一代飞机的flying wing (飞翼)设计。
4.The flying wing (飞翼) concept could revolutionize aircraft design in the future.
未来,flying wing (飞翼)概念可能会彻底改变飞机设计。
5.The new stealth bomber features a unique design, resembling a flying wing (飞翼).
这款新隐形轰炸机的独特设计,类似于一个flying wing (飞翼)。
作文
The concept of a flying wing is fascinating and represents a significant advancement in aerodynamics and aircraft design. Unlike traditional aircraft that have distinct fuselages, wings, and tails, a flying wing is designed to eliminate the need for a conventional body structure. This innovative design allows for improved aerodynamic efficiency, reduced drag, and enhanced lift capabilities. The absence of a tail means that the entire surface of the aircraft contributes to its lift, making it a more efficient flying machine.One of the most notable examples of a flying wing is the Northrop YB-49, which was developed during the late 1940s. This experimental bomber showcased the potential of the flying wing design by achieving impressive performance metrics. Although it never entered production, the YB-49 laid the groundwork for future designs and inspired subsequent generations of aircraft engineers.In modern aviation, the flying wing design has seen a resurgence, particularly with the development of stealth technology. Stealth bombers like the B-2 Spirit utilize the flying wing configuration to minimize their radar signature, allowing them to penetrate enemy defenses more effectively. The smooth, blended shape of the flying wing helps to scatter radar waves, making these aircraft difficult to detect.Moreover, the flying wing design is not limited to military applications. Researchers and engineers are exploring the potential of flying wings for commercial aviation. The advantages of increased fuel efficiency and reduced operational costs are compelling reasons to consider this design for future passenger aircraft. Companies are investigating how to implement the flying wing concept into larger, more practical airliners that could revolutionize the way we travel.Despite the many benefits, there are challenges associated with the flying wing design. One of the primary concerns is stability and control during flight. Traditional aircraft rely on vertical stabilizers and horizontal tails to maintain balance and control. In contrast, flying wings must rely on advanced flight control systems to ensure safe and stable operations. Engineers are continuously working on solutions to address these issues, and advancements in technology are making the flying wing design more feasible.In conclusion, the flying wing represents a groundbreaking approach to aircraft design that offers numerous advantages in terms of efficiency and performance. As technology continues to evolve, we may see more flying wings in the skies, changing the landscape of both military and commercial aviation. The journey of the flying wing from experimental designs to potential mainstream applications highlights the importance of innovation in the field of aerospace engineering. It encourages us to think outside the box and explore new possibilities for the future of flight.
“飞翼”的概念非常迷人,代表了空气动力学和飞机设计的重要进步。与传统飞机有明显的机身、机翼和尾翼不同,“飞翼”设计旨在消除传统机体结构的需要。这种创新设计可以提高空气动力效率,减少阻力,并增强升力能力。由于没有尾翼,飞机的整个表面都为其提供升力,使其成为一种更有效的飞行机器。最著名的“飞翼”例子之一是北方YB-49,这是一款在20世纪40年代末开发的实验轰炸机。该实验轰炸机展示了“飞翼”设计的潜力,取得了令人印象深刻的性能指标。尽管它从未进入生产,但YB-49为未来的设计奠定了基础,并激励了后代的飞机工程师。在现代航空中,“飞翼”设计重新受到关注,尤其是在隐形技术的发展方面。像B-2幽灵这样的隐形轰炸机利用“飞翼”配置来最小化其雷达信号,使其能够更有效地穿透敌方防御。“飞翼”的光滑、融合形状有助于散射雷达波,使这些飞机难以被探测到。此外,“飞翼”设计并不仅限于军事应用。研究人员和工程师正在探索将“飞翼”应用于商业航空的潜力。增加燃油效率和降低运营成本的优势是考虑这种设计用于未来客机的有力理由。公司正在研究如何将“飞翼”概念实施到更大、更实用的客机中,这可能会彻底改变我们的旅行方式。尽管有许多好处,但“飞翼”设计也面临挑战。其中一个主要问题是飞行中的稳定性和控制。传统飞机依赖垂直稳定器和水平尾翼来保持平衡和控制。相比之下,“飞翼”必须依靠先进的飞行控制系统来确保安全和稳定的操作。工程师们正在不断努力寻找解决方案来应对这些问题,技术的进步使“飞翼”设计变得更加可行。总之,“飞翼”代表了一种突破性的飞机设计方法,在效率和性能方面提供了众多优势。随着技术的不断发展,我们可能会在天空中看到更多的“飞翼”,改变军事和商业航空的格局。从实验设计到潜在主流应用的“飞翼”之旅突显了航空航天工程领域创新的重要性。它鼓励我们跳出框架,探索未来飞行的新可能性。
相关单词
