suspension device

简明释义

悬挂装置

英英释义

例句

1.The suspension device in the roller coaster ensures a smooth ride for passengers.

过山车中的悬挂装置确保乘客享受平稳的乘坐体验。

2.In construction, a suspension device is often used to support heavy loads from above.

在建筑中，悬挂装置常用于从上方支撑重物。

3.The engineer designed a new suspension device to improve the vehicle's handling.

工程师设计了一种新的悬挂装置以改善车辆的操控性。

4.The athlete used a suspension device for training to enhance strength and flexibility.

运动员使用悬挂装置进行训练，以增强力量和灵活性。

5.The suspension device on the bridge helps to distribute weight evenly.

桥上的悬挂装置有助于均匀分配重量。

作文

In the realm of engineering and design, the concept of a suspension device plays a crucial role in various applications, ranging from vehicles to bridges. A suspension device is essentially a mechanism that supports weight and absorbs shocks, ensuring stability and comfort in movement. This functionality is vital in many areas, particularly in automotive engineering, where the performance and safety of a vehicle depend significantly on its suspension system.For instance, in cars, the suspension device includes components like springs, shock absorbers, and linkages that work together to provide a smooth ride. When a vehicle encounters uneven surfaces, the suspension device absorbs the impact, preventing excessive bouncing and maintaining contact between the tires and the road. This not only enhances passenger comfort but also improves handling and control, which are essential for safe driving.Moreover, the design of a suspension device can vary significantly based on the intended use. In high-performance sports cars, engineers may opt for a stiffer suspension device to enhance responsiveness and cornering ability. Conversely, in family vehicles, a softer suspension device might be preferred to prioritize comfort over performance. Such variations illustrate how the same fundamental principle can be adapted to meet different needs and preferences.Beyond automobiles, the principles of suspension devices are also applied in civil engineering. For example, suspension bridges utilize large cables as suspension devices to support the weight of the bridge deck. These cables distribute the load evenly, allowing the bridge to span long distances without the need for numerous supporting pillars. The engineering behind these structures relies heavily on the physics of tension and compression, showcasing the versatility of suspension devices in supporting various forms of infrastructure.In addition to their practical applications, suspension devices are also a subject of research and innovation. Engineers continually seek to improve the materials and designs used in these systems to enhance durability, reduce weight, and increase efficiency. For instance, advancements in materials science have led to the development of lighter and stronger composites that can be used in suspension devices, improving overall performance while minimizing environmental impact.In conclusion, the significance of suspension devices cannot be overstated. They are integral to the functionality and safety of vehicles and infrastructure alike. As technology evolves, so too will the designs and applications of suspension devices, pushing the boundaries of what is possible in engineering. Understanding the mechanics and importance of these devices is essential for anyone interested in the fields of automotive or civil engineering, as they represent a fundamental aspect of how we build and interact with the world around us.

在工程和设计领域，suspension device的概念在各种应用中发挥着至关重要的作用，从车辆到桥梁。suspension device本质上是一种支撑重量和吸收冲击的机制，确保运动中的稳定性和舒适性。这种功能在许多领域尤其重要，特别是在汽车工程中，车辆的性能和安全性在很大程度上取决于其悬挂系统。例如，在汽车中，suspension device包括弹簧、减震器和连接件等组件，这些组件协同工作以提供平稳的驾驶体验。当车辆遇到不平坦的表面时，suspension device吸收冲击，防止过度反弹，并保持轮胎与路面的接触。这不仅提高了乘客的舒适度，还改善了操控性和控制能力，这对安全驾驶至关重要。此外，suspension device的设计可以根据预期用途有显著不同。在高性能跑车中，工程师可能会选择更硬的suspension device以增强响应性和转向能力。相反，在家庭车辆中，可能更倾向于选择较软的suspension device，以优先考虑舒适性而非性能。这种变异展示了同一基本原理如何适应不同的需求和偏好。除了汽车，suspension devices的原理也应用于土木工程。例如，悬索桥利用大型电缆作为suspension devices来支撑桥面板的重量。这些电缆均匀分配负载，使桥梁能够跨越长距离而无需众多支撑柱。这些结构背后的工程在很大程度上依赖于张力和压缩的物理学，展示了suspension devices在支撑各种基础设施中的多功能性。除了实际应用外，suspension devices也是研究和创新的主题。工程师们不断寻求改进这些系统中使用的材料和设计，以增强耐用性、减轻重量和提高效率。例如，材料科学的进步导致开发出更轻、更强的复合材料，可以用于suspension devices，从而在最小化环境影响的同时提高整体性能。总之，suspension devices的重要性不容小觑。它们是车辆和基础设施功能和安全性的核心。随着技术的发展，suspension devices的设计和应用也将不断演变，推动工程领域的可能性界限。理解这些设备的机械原理和重要性对于任何对汽车或土木工程感兴趣的人来说都是至关重要的，因为它们代表了我们如何构建和与周围世界互动的基本方面。