fuselage
简明释义
n. [航] 机身(飞机)
复 数 f u s e l a g e s
英英释义
The main body of an aircraft, which houses the crew, passengers, and cargo. | 飞机的主体部分,容纳机组人员、乘客和货物。 |
单词用法
机身结构 | |
机身设计 | |
机身长度 | |
机身横截面 | |
附加到机身上 | |
安装在机身上的 | |
集成到机身中 | |
检查机身 |
同义词
| 机身 | The body of the aircraft is designed for optimal aerodynamics. | 飞机的机身设计为最佳空气动力学。 | |
| 船体/机身 | The hull of the airplane must withstand various environmental conditions. | 飞机的机身必须承受各种环境条件。 | |
| 框架 | 框架为机身提供结构支持。 |
反义词
| 机翼 | 飞机的机翼提供升力。 | ||
| 尾部 | 飞机的尾部有助于稳定性。 |
例句
1.It is fitted with five pods: two under each wing and one under the fuselage.
它安装了五个吊舱:每个机翼下各两个,机身下一个。
2.Some chairs were set around affixed tables, others were placed along the fuselage, near the Windows.
有些椅子放置在固定的桌子周围,另一些沿着过道放在舷窗附近。
3.The fuselage shape contributes additional lift, as do the longer, narrower wings.
这种机身形状能够获得偶外的上升力,如同加上了更长更窄的机翼。
4.The aircraft's interior emergency lights were still functioning, the fuselage tilted at an odd Angle.
机舱内部的应急灯还亮着,机身倾斜成一个奇怪的角度。
5.The big challenge is figuring out how to design the air intakes to maximize airflow over the fuselage.
最大的挑战是如何设计进风口以使机身气流最大化。
6.The aircraft took off with a gaping hole in its fuselage.
那飞机起飞了,机身上有一个裂开的洞。
7.They also moved the engines from the usual wing-mounted locations to the rear of the fuselage.
他们还将引擎从机翼下方移至机身后部。
8.The fuselage had a single aisle and 12 rows.
这个模拟机身有一条过道和12排。
9.The fuselage houses the cockpit, passenger cabin, and cargo area.
飞机的机身内有驾驶舱、客舱和货舱。
10.The fuselage of the airplane is designed to withstand significant aerodynamic forces.
飞机的机身设计能够承受巨大的空气动力学力量。
11.The pilot conducted a thorough inspection of the aircraft's fuselage before takeoff.
飞行员在起飞前对飞机的机身进行了全面检查。
12.During the maintenance check, technicians found a crack in the fuselage that needed immediate repair.
在维护检查中,技术人员发现机身上有一个裂缝,需要立即修理。
13.Aerodynamic shapes are crucial for the fuselage to reduce drag during flight.
流线型的形状对于机身在飞行中减少阻力至关重要。
作文
The term fuselage refers to the main body of an aircraft, which is designed to accommodate passengers, cargo, and various systems necessary for flight. Understanding the structure and function of the fuselage is crucial for anyone interested in aviation or aerospace engineering. The fuselage serves as the central component that connects the wings, tail, and other parts of the airplane, providing the necessary aerodynamic shape to ensure efficient flight. In modern aircraft design, the fuselage is typically constructed from lightweight materials such as aluminum or composite materials to reduce weight while maintaining structural integrity. This is important because a lighter aircraft can achieve better fuel efficiency and performance. Additionally, advancements in technology have allowed for the development of larger and more spacious fuselages, accommodating a greater number of passengers and cargo without compromising safety or performance.One of the most significant aspects of the fuselage is its role in passenger comfort and safety. The interior of the fuselage is designed with careful consideration of ergonomics and aesthetics. Airlines invest heavily in creating a pleasant flying experience for their passengers, which includes comfortable seating, adequate legroom, and in-flight entertainment systems. The fuselage must also be equipped with emergency exits and safety features to ensure passenger safety during flights.Moreover, the fuselage houses critical systems that are essential for the operation of the aircraft. These include avionics, which are the electronic systems used for navigation and communication, as well as environmental control systems that maintain a comfortable atmosphere within the cabin. The integration of these systems into the fuselage is a complex engineering challenge that requires precise planning and execution.Another important factor to consider is the aerodynamic design of the fuselage. The shape of the fuselage significantly affects the aircraft's drag and lift characteristics. Engineers use advanced computational fluid dynamics (CFD) simulations to optimize the fuselage shape, ensuring that it minimizes drag while maximizing lift during flight. This optimization process is vital for improving the overall performance and efficiency of the aircraft.In conclusion, the fuselage is a fundamental component of any aircraft, playing a vital role in passenger comfort, safety, and the overall functionality of the airplane. Its design and construction are essential for achieving optimal performance in the air, making it a key focus area for engineers and designers in the aviation industry. Understanding the intricacies of the fuselage not only enhances our appreciation for modern aviation but also highlights the incredible engineering feats that go into building an aircraft capable of safely transporting people across the globe.
术语fuselage指的是飞机的机身,旨在容纳乘客、货物以及飞行所需的各种系统。理解fuselage的结构和功能对于任何对航空或航天工程感兴趣的人来说都是至关重要的。fuselage作为连接机翼、尾部和飞机其他部分的中心组件,提供了确保高效飞行所需的空气动力学形状。在现代飞机设计中,fuselage通常采用铝或复合材料等轻质材料制造,以减轻重量,同时保持结构完整性。这一点非常重要,因为更轻的飞机可以实现更好的燃油效率和性能。此外,技术的进步使得更大、更宽敞的fuselages的开发成为可能,可以容纳更多的乘客和货物,而不影响安全性或性能。fuselage最重要的方面之一是其在乘客舒适性和安全性中的作用。fuselage的内部设计经过仔细考虑人体工程学和美学。航空公司在创造愉快的飞行体验方面投入了大量资金,包括舒适的座椅、足够的腿部空间和机上娱乐系统。fuselage还必须配备紧急出口和安全设施,以确保乘客在飞行过程中的安全。此外,fuselage还容纳了飞机操作所需的关键系统。这些系统包括用于导航和通信的航空电子设备,以及维持机舱内舒适气氛的环境控制系统。这些系统的集成到fuselage中是一个复杂的工程挑战,需要精确的规划和执行。另一个需要考虑的重要因素是fuselage的空气动力学设计。fuselage的形状对飞机的阻力和升力特性有显著影响。工程师使用先进的计算流体动力学(CFD)模拟来优化fuselage的形状,确保其在飞行中最小化阻力,同时最大化升力。这个优化过程对于提高飞机的整体性能和效率至关重要。总之,fuselage是任何飞机的基本组成部分,在乘客舒适性、安全性和飞机整体功能中发挥着重要作用。其设计和建造对于实现最佳的飞行性能至关重要,使其成为航空工业中工程师和设计师的重点关注领域。理解fuselage的复杂性不仅增强了我们对现代航空的欣赏,也突显了构建能够安全运输人们横跨全球的飞机所需的令人难以置信的工程成就。
