all-up weight
简明释义
满载重量
英英释义
例句
1.The aircraft's all-up weight 总重 must not exceed the maximum limit set by the manufacturer.
飞机的all-up weight 总重不得超过制造商设定的最大限制。
2.The all-up weight 总重 of the cargo ship was carefully calculated to avoid capsizing.
货船的all-up weight 总重经过仔细计算,以避免倾覆。
3.Before takeoff, the pilot checks the all-up weight 总重 to ensure safety.
起飞前,飞行员检查all-up weight 总重以确保安全。
4.Engine performance can be affected by the all-up weight 总重 of the vehicle.
发动机性能可能会受到车辆all-up weight 总重的影响。
5.During the flight planning process, it is crucial to determine the all-up weight 总重 for fuel calculations.
在飞行计划过程中,确定all-up weight 总重对于燃料计算至关重要。
作文
The term all-up weight refers to the total weight of an aircraft, spacecraft, or any vehicle when it is fully loaded with all its necessary components, including fuel, cargo, passengers, and equipment. Understanding all-up weight is crucial in aerospace engineering and aviation because it directly affects the performance, safety, and efficiency of the vehicle. The all-up weight plays a significant role in determining how much load an aircraft can carry and how far it can travel. For instance, if the all-up weight exceeds the maximum takeoff weight (MTOW), it can lead to serious safety risks during flight operations.When designing an aircraft, engineers must carefully calculate the all-up weight to ensure that it remains within acceptable limits. This involves considering factors such as the weight of the structure, the payload capacity, and the amount of fuel needed for the intended journey. Each component contributes to the overall all-up weight, and even small adjustments can have significant implications for performance. For example, reducing the weight of non-essential equipment can increase the payload capacity or extend the range of the aircraft.In addition to engineering considerations, pilots must also be aware of the all-up weight before takeoff. They use this information to perform weight and balance calculations, which help ensure that the aircraft is properly loaded and balanced for safe flight. An improperly balanced aircraft can lead to difficulties in controlling the aircraft and may result in dangerous situations during takeoff, flight, or landing.The concept of all-up weight is not limited to aviation; it is also applicable in other fields such as automotive engineering and space exploration. In the automotive industry, the all-up weight of a vehicle influences its fuel efficiency, handling, and acceleration. Similarly, in space missions, the all-up weight of a spacecraft must be meticulously calculated to ensure that it can achieve the necessary velocity to escape Earth's gravitational pull.In conclusion, the term all-up weight encompasses more than just a numerical value; it represents a critical aspect of vehicle design and operation that impacts safety, efficiency, and performance. Whether in aviation, automotive, or aerospace contexts, understanding and managing the all-up weight is essential for successful outcomes. Engineers, pilots, and operators must work together to consider all factors contributing to the all-up weight to optimize their vehicles for the challenges they face in their respective fields.
术语all-up weight指的是飞机、航天器或任何载具在完全装载所有必要组件时的总重量,包括燃料、货物、乘客和设备。理解all-up weight在航空航天工程和航空中至关重要,因为它直接影响到载具的性能、安全性和效率。all-up weight在确定飞机能携带多少负载以及能飞多远方面起着重要作用。例如,如果all-up weight超过最大起飞重量(MTOW),可能会在飞行操作中导致严重的安全风险。在设计飞机时,工程师必须仔细计算all-up weight,以确保其保持在可接受的范围内。这涉及到考虑结构重量、有效载荷能力以及为预定航程所需的燃料量等因素。每个组件都对整体all-up weight产生影响,即使是小的调整也可能对性能产生重大影响。例如,减少非必要设备的重量可以增加有效载荷能力或延长飞机的航程。除了工程考虑外,飞行员在起飞前也必须了解all-up weight。他们使用这些信息进行重量和平衡计算,以帮助确保飞机正确装载和平衡,以便安全飞行。装载不当的飞机可能会导致控制困难,并可能在起飞、飞行或着陆过程中造成危险情况。all-up weight的概念并不限于航空领域;它在汽车工程和太空探索等其他领域也适用。在汽车工业中,车辆的all-up weight影响其燃油效率、操控性和加速性能。同样,在太空任务中,航天器的all-up weight必须经过精确计算,以确保其能够达到逃离地球引力所需的速度。总之,术语all-up weight不仅仅是一个数值;它代表了车辆设计和操作中的一个关键方面,影响着安全性、效率和性能。无论是在航空、汽车还是航空航天的背景下,理解和管理all-up weight对于成功的结果至关重要。工程师、飞行员和操作人员必须共同努力,考虑所有影响all-up weight的因素,以优化他们的载具应对各自领域面临的挑战。
