engine bearer

简明释义

机座

英英释义

例句

1.He carefully aligned the engine bearer with the mounting points on the fuselage.

他小心翼翼地将发动机支架与机身上的安装点对齐。

2.The design of the engine bearer plays a crucial role in the overall stability of the aircraft.

发动机支架的设计在飞机的整体稳定性中起着至关重要的作用。

3.The weight distribution of the engine bearer affects the aircraft's performance.

发动机支架的重量分布会影响飞机的性能。

4.The technician inspected the engine bearer to ensure it was securely mounted.

技术人员检查了发动机支架以确保其牢固安装。

5.During the maintenance check, we found that the engine bearer had some wear and needed replacement.

在维护检查中，我们发现发动机支架有些磨损，需要更换。

作文

In the world of aviation and aerospace engineering, every component plays a critical role in ensuring the safety and efficiency of flight. One such essential component is the engine bearer, which serves as a crucial support structure for the aircraft's engines. The engine bearer (发动机支架) is designed to withstand the immense forces generated by the engines during operation, while also providing a stable mounting point on the aircraft fuselage. This component not only bears the weight of the engines but also helps to dampen vibrations and reduce stress on the airframe. The design and material selection for the engine bearer are vital for the overall performance of the aircraft. Engineers must consider factors such as weight, strength, and durability when creating these components. Typically, materials like aluminum alloys and composites are used due to their excellent strength-to-weight ratios. The engine bearer (发动机支架) must be lightweight to avoid adding unnecessary mass to the aircraft, yet strong enough to handle the dynamic loads experienced during flight.Moreover, the integration of the engine bearer into the aircraft's structure requires precise engineering and manufacturing processes. Any misalignment or weakness in the engine bearer (发动机支架) can lead to catastrophic failures, making it imperative that these components meet stringent safety standards. Testing and validation are critical steps in the development of an engine bearer, often involving simulations and real-world testing to ensure reliability under various conditions.Additionally, the engine bearer plays a role in the maintenance and accessibility of the engines. A well-designed engine bearer (发动机支架) allows for easier access to the engines for inspections, repairs, and replacements. This is particularly important in commercial aviation, where minimizing downtime is essential for maintaining operational efficiency and profitability. Airlines rely on quick turnaround times, and any delays caused by engine maintenance can have significant financial implications.As technology advances, the design and functionality of the engine bearer continue to evolve. Innovations in materials science and engineering techniques are leading to lighter, stronger, and more efficient designs. For instance, the use of advanced composite materials is becoming more common, allowing for further weight reduction without compromising strength. This trend aligns with the industry's goal of producing more fuel-efficient aircraft that have a lower environmental impact.In conclusion, the engine bearer (发动机支架) is a fundamental component in the realm of aircraft design and engineering. Its ability to support the engines while ensuring structural integrity and facilitating maintenance makes it indispensable in modern aviation. As the industry progresses, the importance of optimizing the engine bearer will only grow, highlighting the need for continuous innovation and improvement in aerospace engineering practices.

在航空和航天工程的世界中，每个组件在确保飞行安全和效率方面都扮演着至关重要的角色。其中一个关键组件是发动机支架，它为飞机的发动机提供了重要的支撑结构。发动机支架（engine bearer）旨在承受发动机在操作过程中产生的巨大力量，同时为飞机机身提供一个稳定的安装点。这个组件不仅承载着发动机的重量，还帮助减震并减少机身的应力。发动机支架的设计和材料选择对于飞机的整体性能至关重要。工程师在创建这些组件时，必须考虑诸如重量、强度和耐久性等因素。通常，铝合金和复合材料等材料由于其优异的强度重量比而被使用。发动机支架（engine bearer）必须轻便，以避免给飞机增加不必要的质量，同时又要足够坚固，以应对飞行中遇到的动态负载。此外，发动机支架的整合到飞机结构中需要精确的工程和制造过程。发动机支架（engine bearer）中的任何不对齐或弱点都可能导致灾难性的故障，因此这些组件必须符合严格的安全标准。测试和验证是发动机支架开发中的关键步骤，通常涉及模拟和实际测试，以确保在各种条件下的可靠性。此外，发动机支架在发动机的维护和可及性方面也发挥着作用。设计良好的发动机支架（engine bearer）可以更容易地接触到发动机进行检查、维修和更换。这在商业航空中尤为重要，因为最小化停机时间对于维持运营效率和盈利能力至关重要。航空公司依赖快速周转时间，任何因发动机维护造成的延误都可能带来重大财务影响。随着技术的进步，发动机支架的设计和功能也在不断发展。材料科学和工程技术的创新正在导致更轻、更强和更高效的设计。例如，先进复合材料的使用变得越来越普遍，使得在不妨碍强度的情况下进一步减轻重量。这一趋势与行业生产更具燃油效率且环境影响更低的飞机的目标一致。总之，发动机支架（engine bearer）是飞机设计和工程领域中的基本组件。它能够支撑发动机，同时确保结构完整性并促进维护，使其在现代航空中不可或缺。随着行业的进步，优化发动机支架的重要性将只会增加，突显出在航空航天工程实践中持续创新和改进的必要性。