collision chock

简明释义

防撞垫块

英英释义

例句

1.After the accident, the engineer suggested using a collision chock to stabilize the machinery.

事故发生后，工程师建议使用碰撞阻挡器来稳定机械设备。

2.The ship's captain ordered the crew to install the collision chock to prevent any sudden movements during the storm.

船长命令船员安装碰撞阻挡器以防止在风暴中出现任何突然的移动。

3.The construction site had several collision chocks placed around heavy equipment for safety.

施工现场在重型设备周围放置了几个碰撞阻挡器以确保安全。

4.In racing, a collision chock is essential to ensure that cars do not collide during pit stops.

在赛车中，碰撞阻挡器是确保汽车在维修站停靠时不发生碰撞的关键。

5.To protect the cargo, the shipping company fitted each container with a collision chock.

为了保护货物，航运公司为每个集装箱配备了碰撞阻挡器。

作文

In the world of engineering and design, understanding various components and their functions is critical for creating safe and efficient systems. One such component that plays a significant role in various applications is the collision chock. A collision chock is a device designed to absorb the energy generated during a collision, thereby minimizing damage to both the object involved in the collision and the surrounding environment. This mechanism is particularly important in industries such as automotive, aerospace, and maritime, where the consequences of collisions can be catastrophic.The primary function of a collision chock is to provide a cushioning effect during an impact. For instance, in automotive design, engineers often incorporate collision chocks in the structure of vehicles to enhance passenger safety. When a vehicle experiences a collision, the collision chock absorbs a significant portion of the impact force, reducing the risk of injury to occupants. This technology has evolved over the years, with advancements leading to more effective materials and designs that improve energy absorption capabilities.In aerospace applications, collision chocks are equally vital. Aircraft are subject to various forces during takeoff, landing, and in-flight maneuvers. The presence of collision chocks in certain areas of aircraft can help mitigate the effects of unexpected turbulence or structural impacts. By absorbing shock, these devices contribute to the overall stability and safety of the aircraft, ensuring a smoother experience for passengers and crew alike.Moreover, in the maritime industry, collision chocks are essential for protecting vessels during docking and undocking procedures. When ships come into contact with docks or other vessels, collision chocks help absorb the kinetic energy from the impact, preventing structural damage and maintaining the integrity of both the ship and the dock. This is particularly crucial in busy ports where multiple vessels are maneuvering simultaneously.The design and material selection for collision chocks are paramount. Engineers must consider factors such as weight, durability, and energy absorption efficiency when developing these components. Advanced materials like polymers and composites are often used to create lightweight yet strong collision chocks that can withstand high-impact forces without failure.In conclusion, the collision chock is a critical component in various industries, serving to protect both people and property from the potentially devastating effects of collisions. Its role in enhancing safety cannot be overstated, as it provides a necessary buffer against the forces generated during impacts. As technology continues to advance, we can expect further innovations in collision chock design, leading to even greater improvements in safety and performance across multiple sectors. Understanding the importance of collision chocks allows us to appreciate the intricate engineering that goes into making our vehicles, aircraft, and vessels safer for everyone involved.

在工程和设计的世界中，理解各种组件及其功能对于创建安全有效的系统至关重要。其中一个在各种应用中发挥重要作用的组件是碰撞阻挡器。碰撞阻挡器是一种旨在吸收碰撞过程中产生的能量的装置，从而最大限度地减少碰撞物体及其周围环境的损坏。这种机制在汽车、航空航天和海事等行业尤为重要，因为碰撞的后果可能是灾难性的。碰撞阻挡器的主要功能是在冲击过程中提供缓冲效果。例如，在汽车设计中，工程师通常会在车辆结构中加入碰撞阻挡器以增强乘客安全。当一辆车发生碰撞时，碰撞阻挡器吸收了相当大部分的冲击力，从而降低了对乘员的伤害风险。随着多年来技术的发展，材料和设计的进步使得能量吸收能力得到了提升。在航空航天应用中，碰撞阻挡器同样至关重要。飞机在起飞、着陆和飞行操作期间会受到各种力量的影响。在飞机的某些区域设置碰撞阻挡器可以帮助减轻意外颠簸或结构冲击的影响。通过吸收冲击，这些装置有助于整体的稳定性和安全性，确保乘客和机组人员都能获得更顺畅的体验。此外，在海事行业中，碰撞阻挡器对于保护船只在靠泊和离港过程中的安全至关重要。当船只与码头或其他船只接触时，碰撞阻挡器帮助吸收来自冲击的动能，防止结构损坏并保持船只和码头的完整性。这在繁忙的港口尤为关键，因为多个船只同时操作。碰撞阻挡器的设计和材料选择至关重要。工程师在开发这些组件时必须考虑重量、耐用性和能量吸收效率等因素。先进的材料如聚合物和复合材料常用于制造轻便但强度高的碰撞阻挡器，能够承受高冲击力而不失效。总之，碰撞阻挡器是各个行业中的关键组件，旨在保护人们和财产免受碰撞潜在毁灭性影响的伤害。它在增强安全性方面的作用不可低估，因为它提供了抵御冲击力的必要缓冲。随着技术的不断进步，我们可以期待在碰撞阻挡器设计方面进一步的创新，从而在多个领域实现更大的安全性和性能提升。理解碰撞阻挡器的重要性使我们能够欣赏到在使我们的车辆、飞机和船只更加安全的复杂工程。