all up weight

简明释义

1. 总重量; 2. 全重; 3. 满载重;

英英释义

例句

1.The all up weight of the cargo plane exceeded the maximum allowable limit.

货运飞机的总重超过了最大允许限制。

2.The all up weight determines the takeoff and landing distances required for the plane.

飞行器的总重决定了所需的起飞和着陆距离。

3.Calculating the all up weight is crucial for determining fuel requirements.

计算总重对于确定燃料需求至关重要。

4.Before loading, the ground crew confirmed the all up weight to avoid any issues during flight.

在装载之前，地勤人员确认了总重以避免飞行中出现任何问题。

5.The pilot checked the all up weight before takeoff to ensure the aircraft was within safe limits.

飞行员在起飞前检查了总重以确保飞机在安全限制内。

作文

In the field of aviation and aerospace, the term all up weight is crucial for understanding the overall mass of an aircraft or spacecraft. The all up weight refers to the total weight of the vehicle, including its structure, fuel, cargo, and any passengers onboard. This concept is essential for engineers and pilots as it directly affects flight performance, fuel efficiency, and safety parameters. When designing an aircraft, engineers must carefully calculate the all up weight to ensure that it can achieve the required lift during takeoff. The lift generated by the wings must be sufficient to overcome the all up weight for the aircraft to ascend into the sky. If the all up weight exceeds the aircraft's design specifications, it may lead to performance issues, such as longer takeoff distances and reduced climb rates.Moreover, the all up weight also plays a significant role in determining the fuel requirements for a flight. Heavier aircraft require more fuel to maintain flight, which can lead to increased operational costs. Airlines often strive to minimize the all up weight by optimizing cargo loads and using lightweight materials in construction. For instance, modern aircraft utilize composite materials that are both strong and lightweight, helping to reduce the overall all up weight without compromising safety.In addition to its implications for design and operation, the all up weight is also a critical factor in regulatory compliance. Aviation authorities set specific limits on the all up weight for different types of aircraft to ensure safe operations. Pilots must adhere to these regulations, carefully calculating their all up weight before every flight to ensure they remain within legal limits. Failure to do so could result in severe penalties and jeopardize the safety of the flight.Furthermore, understanding the all up weight is not only limited to aviation but also extends to other fields such as automotive engineering and shipping. In the automotive industry, the all up weight of a vehicle influences its handling, fuel economy, and emissions. Manufacturers aim to produce lighter vehicles that still provide safety and performance, thereby enhancing the driving experience while reducing environmental impact.In shipping, the all up weight of a cargo vessel determines its capacity and the amount of fuel it needs for a journey. Shipping companies must carefully manage the all up weight to optimize their operations and reduce costs. By understanding the all up weight, they can make informed decisions about cargo loads and routes.In summary, the term all up weight is vital across various industries, particularly in aviation. Its significance lies in its impact on performance, safety, and cost-efficiency. By mastering the concept of all up weight, professionals can enhance their understanding of vehicle dynamics and improve operational practices. Whether in the skies, on the roads, or at sea, the all up weight remains a fundamental aspect of engineering and logistics that cannot be overlooked.

在航空和航天领域，术语全重对于理解飞机或航天器的整体质量至关重要。全重指的是飞行器的总重量，包括其结构、燃料、货物以及机上乘客。这一概念对工程师和飞行员至关重要，因为它直接影响飞行性能、燃油效率和安全参数。在设计飞机时，工程师必须仔细计算全重，以确保飞机能够在起飞时达到所需的升力。机翼产生的升力必须足够克服全重，使飞机能够升空。如果全重超出飞机的设计规格，可能会导致性能问题，例如更长的起飞距离和降低的爬升率。此外，全重在确定航班所需燃料方面也起着重要作用。较重的飞机需要更多的燃料来维持飞行，这可能导致运营成本增加。航空公司通常努力通过优化货物装载和使用轻量材料来减少全重。例如，现代飞机采用复合材料，这些材料既坚固又轻便，有助于在不妨碍安全的情况下降低整体全重。除了对设计和操作的影响外，全重也是遵循法规的关键因素。航空当局对不同类型飞机设定了具体的全重限制，以确保安全操作。飞行员必须遵守这些规定，在每次飞行前仔细计算他们的全重，以确保他们保持在合法范围内。如果不这样做，可能会导致严重的处罚，并危及航班的安全。此外，理解全重的概念不仅限于航空，还延伸到汽车工程和航运等其他领域。在汽车工业中，车辆的全重影响其操控性、燃油经济性和排放。制造商旨在生产更轻的车辆，同时提供安全性和性能，从而增强驾驶体验，同时减少对环境的影响。在航运中，货船的全重决定了其容量和航程所需的燃料量。航运公司必须仔细管理全重，以优化其运营并降低成本。通过理解全重，他们可以就货物装载和航线做出明智的决策。总之，术语全重在各个行业中至关重要，特别是在航空领域。其重要性体现在对性能、安全性和成本效率的影响上。通过掌握全重的概念，专业人士可以增强对车辆动态的理解，并改善运营实践。无论是在天空、道路还是海洋，全重始终是工程和物流中不可忽视的基本方面。