deflection angle

简明释义

偏转角

英英释义

例句

1.A larger deflection angle 偏转角 in a bridge design can indicate potential structural issues.

桥梁设计中的较大deflection angle 偏转角可能表明潜在的结构问题。

2.The engineer calculated the deflection angle 偏转角 of the beam to ensure it would not exceed safety limits.

工程师计算了梁的deflection angle 偏转角以确保其不会超过安全限制。

3.The pilot adjusted the aircraft's trajectory based on the deflection angle 偏转角 during turbulence.

飞行员根据颠簸期间的deflection angle 偏转角调整了飞机的轨迹。

4.In optics, the deflection angle 偏转角 can determine how light bends when passing through a prism.

在光学中，deflection angle 偏转角可以决定光线通过棱镜时的弯曲程度。

5.The deflection angle 偏转角 of the radar signal helped in accurately locating the target.

雷达信号的deflection angle 偏转角有助于准确定位目标。

作文

The concept of the deflection angle is fundamental in various fields of physics and engineering. It refers to the angle by which a beam, rod, or any structural element deviates from its original position when subjected to external forces or moments. Understanding the deflection angle is crucial for engineers and designers as it helps them ensure that structures can withstand loads without failing. In this essay, I will explore the significance of the deflection angle in engineering applications, particularly in the design of bridges and buildings.When a load is applied to a beam, it bends, and the extent of this bending is quantified by the deflection angle. For instance, in bridge construction, the beams must be designed to support not only their weight but also the weight of vehicles and pedestrians. If the deflection angle exceeds a certain limit, it could lead to structural failure or discomfort for users. Therefore, engineers calculate the expected deflection angle during the design phase to ensure safety and functionality.Moreover, the deflection angle is influenced by several factors, including the material properties, the shape of the beam, and the type of loading. For example, steel beams typically have a lower deflection angle compared to wooden beams under the same load due to the inherent strength of steel. This property allows engineers to choose appropriate materials based on the expected deflection angle and the specific requirements of the project.In addition to structural integrity, the deflection angle also plays a vital role in the aesthetic aspect of construction. Architects often consider how much a structure will deflect under load because excessive deflection can ruin the visual lines of a building or bridge. Therefore, controlling the deflection angle is essential for both safety and aesthetics. Furthermore, modern technology has made it easier to measure and analyze the deflection angle. Advanced software tools allow engineers to simulate different loading conditions and predict how structures will behave under various circumstances. This capability enables more accurate designs and reduces the risk of unexpected failures. In conclusion, the deflection angle is a critical parameter in engineering that impacts the safety, functionality, and aesthetics of structures. By understanding and calculating the deflection angle, engineers can create designs that not only meet safety standards but also fulfill the intended purpose of the structure. As technology continues to evolve, the methods used to analyze the deflection angle will likely become even more sophisticated, further enhancing our ability to construct safe and beautiful buildings and bridges.

‘偏转角’的概念在物理学和工程学的各个领域都是基础的。它指的是当一个梁、杆或任何结构元素受到外部力量或力矩作用时，偏离其原始位置的角度。理解‘偏转角’对工程师和设计师至关重要，因为这有助于他们确保结构能够承受负载而不发生故障。在本文中，我将探讨‘偏转角’在工程应用中的重要性，特别是在桥梁和建筑设计中的作用。当负载施加到梁上时，它会弯曲，这种弯曲的程度通过‘偏转角’来量化。例如，在桥梁建设中，梁必须设计成不仅能支撑自身的重量，还能支撑车辆和行人的重量。如果‘偏转角’超过某个限制，就可能导致结构失败或给用户带来不适。因此，工程师在设计阶段计算预期的‘偏转角’，以确保安全和功能。此外，‘偏转角’还受到多个因素的影响，包括材料特性、梁的形状和加载类型。例如，在相同负载下，钢梁的‘偏转角’通常低于木梁，这归因于钢的固有强度。这一特性使工程师能够根据预期的‘偏转角’和项目的具体要求选择合适的材料。除了结构完整性之外，‘偏转角’在建筑美学方面也起着至关重要的作用。建筑师常常考虑结构在负载下的偏转程度，因为过度的偏转可能会破坏建筑或桥梁的视觉线条。因此，控制‘偏转角’对于安全和美观都是必不可少的。此外，现代技术使得测量和分析‘偏转角’变得更加容易。先进的软件工具允许工程师模拟不同的加载条件，并预测结构在各种情况下的表现。这种能力使得设计更加准确，减少了意外故障的风险。总之，‘偏转角’是工程中的一个关键参数，影响结构的安全性、功能性和美观性。通过理解和计算‘偏转角’，工程师可以创建不仅符合安全标准而且实现结构预期目的的设计。随着技术的不断发展，用于分析‘偏转角’的方法可能会变得更加复杂，从而进一步增强我们构建安全和美丽建筑与桥梁的能力。