clearance angle

简明释义

后角

英英释义

例句

1.In bridge construction, engineers must calculate the clearance angle to ensure vehicles can pass underneath safely.

在桥梁建设中，工程师必须计算间隙角度以确保车辆可以安全通过。

2.The clearance angle is critical when designing a new highway overpass to accommodate large trucks.

在设计新的高速公路立交桥时，间隙角度对于容纳大型卡车至关重要。

3.To avoid collisions, the clearance angle between the moving parts of the machine must be precisely measured.

为了避免碰撞，机器运动部件之间的间隙角度必须精确测量。

4.The architect specified the clearance angle in the blueprints to ensure proper ventilation in the building.

建筑师在蓝图中指定了间隙角度以确保建筑物的通风良好。

5.The pilot adjusted the aircraft's landing gear to ensure the correct clearance angle for landing on the short runway.

飞行员调整了飞机的起落架，以确保在短跑道上着陆时的正确间隙角度。

作文

In engineering and design, the concept of clearance angle plays a crucial role in ensuring the safety and functionality of various structures and mechanisms. The clearance angle refers to the angle that provides adequate space between two moving parts or between a part and its surroundings. This angle is essential in preventing collisions, reducing wear and tear, and ensuring smooth operation. For instance, in the design of machinery, the clearance angle must be carefully calculated to avoid interference between components during operation. If the clearance angle is too small, it can lead to mechanical failure, while a larger angle may result in unnecessary space and inefficiency.In automotive engineering, the clearance angle is particularly significant when considering the suspension system of a vehicle. The angle at which the wheels are positioned relative to the body of the car affects handling, stability, and overall performance. A well-defined clearance angle allows for better maneuverability and minimizes the risk of the tires rubbing against the body, which can cause damage and affect safety.Moreover, the clearance angle is also relevant in architectural design. When constructing buildings, architects must consider the clearance angle to ensure that there is enough space for doors, windows, and other structural elements to operate without obstruction. This consideration is vital not only for aesthetics but also for functionality and safety. For example, in fire safety regulations, the clearance angle around exits must be maintained to allow for quick evacuation in case of an emergency.Additionally, the clearance angle has applications in aerodynamics. In the design of aircraft, engineers must account for the clearance angle between various components to optimize airflow and reduce drag. An inappropriate clearance angle can lead to increased fuel consumption and decreased performance, highlighting the importance of precision in engineering calculations.The significance of the clearance angle extends beyond engineering and architecture; it is also critical in everyday life. For example, when parking a vehicle, understanding the clearance angle can help drivers avoid obstacles and ensure they have enough room to maneuver safely. Similarly, in sports, players often need to consider the clearance angle when making strategic moves to avoid opponents or obstacles.In conclusion, the clearance angle is a fundamental concept that impacts various fields, from engineering and architecture to everyday activities. By understanding and applying the principles of the clearance angle, professionals can enhance safety, efficiency, and performance in their respective domains. As technology continues to evolve, the importance of accurately calculating the clearance angle will remain a critical aspect of design and operational success.

在工程和设计中，清除角度的概念在确保各种结构和机制的安全性和功能性方面发挥着至关重要的作用。清除角度是指在两个运动部件之间或一个部件与其周围环境之间提供足够空间的角度。这个角度对于防止碰撞、减少磨损并确保平稳运行至关重要。例如，在机械设计中，必须仔细计算清除角度以避免在操作过程中组件之间的干扰。如果清除角度过小，可能导致机械故障，而较大的角度可能导致不必要的空间和效率低下。在汽车工程中，清除角度在考虑车辆悬挂系统时尤为重要。车轮相对于汽车车身的位置角度会影响操控性、稳定性和整体性能。良好的清除角度允许更好的机动性，并将轮胎与车身摩擦的风险降到最低，这可能造成损坏并影响安全。此外，清除角度在建筑设计中也很重要。在建造建筑物时，建筑师必须考虑清除角度，以确保门窗和其他结构元素在没有障碍的情况下可以运作。这种考虑对于美学、功能性和安全性都至关重要。例如，在消防安全法规中，出口周围的清除角度必须保持，以便在紧急情况下能够快速疏散。此外，清除角度在空气动力学中也有应用。在飞机设计中，工程师必须考虑各种组件之间的清除角度，以优化气流并减少阻力。不当的清除角度可能导致燃料消耗增加和性能下降，突显了在工程计算中精确的重要性。清除角度的重要性不仅限于工程和建筑，它在日常生活中也至关重要。例如，在停车时，理解清除角度可以帮助驾驶员避免障碍物，并确保他们有足够的空间安全地操控。同样，在体育运动中，球员在进行战略移动时也常常需要考虑清除角度，以避免对手或障碍物。总之，清除角度是一个基本概念，影响着各个领域，从工程和建筑到日常活动。通过理解和应用清除角度的原理，专业人员可以在各自的领域增强安全性、效率和性能。随着技术的不断发展，准确计算清除角度的重要性将继续成为设计和操作成功的关键方面。