deflection device

简明释义

偏转装置

英英释义

例句

1.The engineers installed a deflection device to redirect the flow of water away from the foundation.

工程师安装了一个偏转装置，以将水流引导远离基础。

2.In the new bridge design, a deflection device was incorporated to reduce stress on the beams.

在新的桥梁设计中，加入了一个偏转装置以减少对梁的压力。

3.During testing, the deflection device effectively minimized vibrations in the structure.

在测试过程中，偏转装置有效地减少了结构中的振动。

4.The deflection device in the wind tunnel helped simulate real-world conditions for the aircraft model.

风洞中的偏转装置帮助模拟了飞机模型的真实环境条件。

5.They used a deflection device to alter the trajectory of the projectile in the experiment.

他们使用了一个偏转装置来改变实验中弹丸的轨迹。

作文

In the realm of engineering and physics, the concept of a deflection device plays a pivotal role in various applications. A deflection device is designed to alter the path of an object or force, effectively redirecting its trajectory. This technology is not only crucial in mechanical systems but also in civil engineering, aerodynamics, and even robotics. For instance, in the construction of bridges, engineers often utilize deflection devices to ensure that forces acting on the structure are managed efficiently, preventing potential failures due to excessive bending or twisting.One of the most common examples of a deflection device is the use of beams in buildings. When a load is applied to a beam, it bends, and this bending is referred to as deflection. To counteract this, engineers may incorporate materials or designs that enhance the beam’s ability to withstand these forces. By doing so, they ensure that the structure remains stable and safe under various conditions. In this context, the deflection device can be thought of as an essential component that contributes to the overall integrity of the building.Another significant application of deflection devices can be seen in the field of aerodynamics. Aircraft wings are designed with specific shapes that allow them to generate lift while minimizing drag. The curvature and angle at which the wings are positioned can be considered a form of deflection device because they deflect airflow in such a way that enhances the aircraft's performance. Engineers meticulously calculate these angles to optimize flight efficiency, demonstrating how critical deflection devices are in aviation.Moreover, in the world of robotics, deflection devices are utilized to create more responsive and adaptive machines. For example, robotic arms often employ joints and actuators that allow for precise movements. These joints can be viewed as deflection devices since they enable the arm to bend and pivot in various directions, allowing it to perform complex tasks with accuracy. This adaptability is crucial in manufacturing and assembly lines where precision is paramount.The importance of deflection devices extends beyond just mechanical applications; it also has implications in safety and sustainability. For instance, in automotive design, crumple zones are engineered as deflection devices to absorb impact energy during collisions, protecting passengers inside the vehicle. This innovative approach not only enhances safety but also encourages manufacturers to consider environmental impacts by designing vehicles that are both efficient and safe.In conclusion, the term deflection device encompasses a wide range of applications across various fields. From construction and aerospace to robotics and automotive design, these devices are integral in managing forces and ensuring the stability and safety of structures and systems. As technology continues to advance, the development of more sophisticated deflection devices will undoubtedly lead to enhanced performance and greater safety standards in engineering and design. Understanding the principles behind these devices is essential for anyone interested in the fields of science and technology, as their impact is felt in everyday life and industry alike.

在工程和物理学领域，deflection device（偏转装置）的概念在各种应用中发挥着关键作用。deflection device被设计用来改变物体或力的路径，有效地重新定向其轨迹。这项技术不仅在机械系统中至关重要，在土木工程、空气动力学甚至机器人技术中也同样重要。例如，在桥梁的建设中，工程师通常利用deflection devices来确保作用于结构的力量得到有效管理，从而防止因过度弯曲或扭曲而导致的潜在故障。deflection device最常见的例子之一是建筑中的梁的使用。当负载施加到梁上时，它会弯曲，这种弯曲被称为偏转。为了抵消这一点，工程师可能会采用增强梁承受这些力量能力的材料或设计。通过这样做，他们确保结构在各种条件下保持稳定和安全。在这种情况下，deflection device可以被视为对建筑整体完整性做出贡献的重要组成部分。另一个显著的deflection devices应用可以在空气动力学领域看到。飞机的机翼设计成特定形状，以便在最小化阻力的同时产生升力。机翼的曲率和位置角度可以被视为一种deflection device，因为它们以增强飞机性能的方式偏转气流。工程师精确计算这些角度，以优化飞行效率，展示了deflection devices在航空中的重要性。此外，在机器人技术领域，deflection devices被用于创建更灵活和适应性强的机器。例如，机器人手臂通常采用关节和执行器，允许进行精确的运动。这些关节可以被视为deflection devices，因为它们使手臂能够在各个方向弯曲和旋转，从而能够准确执行复杂任务。这种适应性在制造和装配线上至关重要，因为精度是至关重要的。deflection devices的重要性不仅限于机械应用；它还对安全和可持续性产生影响。例如，在汽车设计中，变形区被设计为deflection devices，以在碰撞中吸收冲击能量，保护车内乘客。这种创新方法不仅增强了安全性，还鼓励制造商考虑环境影响，设计出既高效又安全的车辆。总之，术语deflection device涵盖了各个领域广泛的应用。从建筑和航空航天到机器人和汽车设计，这些设备在管理力量和确保结构与系统的稳定性和安全性方面是不可或缺的。随着技术的不断进步，更复杂的deflection devices的发展无疑将导致工程和设计中性能的提升和安全标准的提高。理解这些设备背后的原理对于任何对科学和技术感兴趣的人来说都是必不可少的，因为它们的影响在日常生活和行业中都能感受到。