fairing on

简明释义

校准

英英释义

例句

1.The team is currently fairing on their project, making sure everything aligns with the initial goals.

团队目前正在进行调整他们的项目，确保一切与初始目标一致。

2.While fairing on the budget, the finance team discovered unexpected expenses.

在调整预算时，财务团队发现了意外支出。

3.As we fairing on the new marketing strategy, we noticed some areas that needed improvement.

在我们调整新的营销策略时，我们注意到一些需要改进的地方。

4.The engineers are fairing on the designs to optimize the performance of the product.

工程师们正在优化设计，以提高产品性能。

5.The artist is fairing on her painting, adding more details to enhance its beauty.

艺术家正在完善她的画作，添加更多细节以增强其美感。

作文

In the world of aviation and aerospace, the term fairing on is commonly used to describe the process of streamlining or improving the aerodynamics of a vehicle. Fairings are structures that reduce drag and improve the performance of aircraft and spacecraft. They are essential for ensuring that these vehicles can travel efficiently through air and space. Understanding how to effectively fairing on an aircraft or rocket can significantly impact its speed, fuel consumption, and overall performance. When engineers and designers work on a new aircraft, one of their primary goals is to minimize drag. This is where the concept of fairing on comes into play. By adding or modifying fairings, they can create a smoother surface that allows air to flow more easily around the vehicle. For example, the addition of a fairing over the landing gear can help reduce turbulence and drag when the aircraft is in flight. This not only improves fuel efficiency but also enhances the overall handling characteristics of the aircraft.Additionally, fairing on is not limited to just commercial airplanes; it is also crucial in the design of rockets and space vehicles. In the vacuum of space, drag is not a concern, but the need for structural integrity and aerodynamic efficiency during launch is paramount. Fairings protect sensitive equipment from aerodynamic forces and environmental conditions during ascent. Engineers must carefully consider how to fairing on their designs to ensure that the vehicle can withstand the intense pressures of launch while still maintaining optimal performance.The process of fairing on involves extensive testing and simulation. Engineers use computational fluid dynamics (CFD) to model how air flows around different designs. They can experiment with various shapes and configurations before finalizing the design. Wind tunnel testing is also a critical step in the fairing on process, allowing engineers to observe real-world aerodynamic behavior and make necessary adjustments.Moreover, the benefits of fairing on extend beyond just performance. A well-designed fairing can also enhance the aesthetic appeal of an aircraft or spacecraft. Many modern aircraft feature sleek, streamlined designs that not only look good but also perform better. This combination of form and function is essential in a competitive industry where efficiency and appearance can make a significant difference.In conclusion, the concept of fairing on is vital in the fields of aviation and aerospace engineering. It encompasses the practices of designing and implementing fairings to improve aerodynamic efficiency and performance. As technology continues to advance, the methods and materials used in fairing on will evolve, leading to even more innovative designs and improved capabilities for aircraft and spacecraft. Understanding this process is essential for anyone interested in pursuing a career in these exciting fields.

在航空和航天的世界中，术语fairing on通常用来描述流线型设计或改善飞行器空气动力学的过程。整流罩是减少阻力并提高飞机和航天器性能的结构。它们对于确保这些飞行器能够高效地穿越空气和空间至关重要。有效地理解如何fairing on一架飞机或火箭可以显著影响其速度、燃油消耗和整体性能。当工程师和设计师在设计新飞机时，他们的主要目标之一就是最小化阻力。这就是fairing on概念发挥作用的地方。通过添加或修改整流罩，他们可以创建一个更光滑的表面，使空气更容易流过飞行器。例如，在起落架上方添加整流罩可以帮助减少飞行时的湍流和阻力。这不仅提高了燃油效率，还增强了飞机的整体操控特性。此外，fairing on不仅限于商业飞机；它在火箭和航天器的设计中同样至关重要。在太空真空中，阻力不是问题，但在发射期间对结构完整性和空气动力效率的需求至关重要。整流罩保护敏感设备免受发射过程中气动力和环境条件的影响。工程师必须仔细考虑如何fairing on他们的设计，以确保飞行器能够承受发射时的强大压力，同时保持最佳性能。fairing on的过程涉及广泛的测试和模拟。工程师使用计算流体动力学（CFD）来模拟空气如何流过不同的设计。他们可以在最终确定设计之前实验各种形状和配置。风洞测试也是fairing on过程中的关键步骤，使工程师能够观察到实际的空气动力行为并进行必要的调整。此外，fairing on的好处不仅仅局限于性能。设计良好的整流罩还可以增强飞机或航天器的美观性。许多现代飞机具有流线型的外观，不仅看起来美观，而且性能更佳。这种形式与功能的结合在竞争激烈的行业中至关重要，在这个行业中，效率和外观都可能产生显著差异。总之，fairing on的概念在航空和航天工程领域至关重要。它涵盖了设计和实施整流罩以改善空气动力效率和性能的实践。随着技术的不断进步，fairing on中使用的方法和材料将不断演变，导致飞机和航天器更具创新性的设计和更好的能力。理解这一过程对于任何有兴趣从事这些令人兴奋的领域的人来说都是必不可少的。