absorption of shock

简明释义

1. 减震; 2. 缓冲; 3. 阻尼;

英英释义

例句

1.The car's suspension system is designed for optimal absorption of shock, ensuring a smooth ride over bumpy roads.

汽车的悬挂系统旨在实现最佳的冲击吸收，确保在颠簸的道路上平稳行驶。

2.The trampoline's surface is engineered for maximum absorption of shock to ensure safety for users.

蹦床的表面经过设计，以实现最大的冲击吸收，确保用户安全。

3.In construction, materials with high absorption of shock are used to protect buildings from earthquakes.

在建筑中，使用具有高冲击吸收能力的材料来保护建筑免受地震影响。

4.Athletes often wear shoes with good absorption of shock to prevent injuries during high-impact activities.

运动员通常穿着具有良好冲击吸收性能的鞋子，以防止在高强度活动中受伤。

5.The design of the helmet includes layers for absorption of shock to protect the head during impacts.

头盔的设计包括用于冲击吸收的层，以保护头部免受冲击。

作文

In our daily lives, we often encounter situations where the concept of absorption of shock plays a crucial role. Whether it is in the design of vehicles, the construction of buildings, or even in the way we handle delicate objects, understanding how to effectively manage and mitigate the impact of sudden forces is essential. The absorption of shock refers to the process by which materials or systems dissipate energy from an impact, reducing the potential damage that could occur. This principle is not only applied in engineering but also in various fields such as sports, safety equipment, and even in our emotional resilience during challenging times.One of the most common applications of absorption of shock can be seen in the automotive industry. Cars are designed with crumple zones, which are areas that deform and absorb energy during a collision. This design feature helps to protect the occupants by minimizing the force transferred to them. The absorption of shock in this context is a matter of life and death, highlighting the importance of engineering principles that prioritize safety.Similarly, in the construction industry, buildings are designed to withstand earthquakes through the use of shock absorbers and flexible materials. These structures must be able to endure the sudden forces exerted by seismic activity. The effective absorption of shock ensures that buildings remain standing, protecting the lives of those within. Engineers employ advanced technologies and materials that can absorb and dissipate energy, thereby enhancing the resilience of infrastructure.In sports, athletes often rely on equipment designed for absorption of shock to prevent injuries. For instance, running shoes are engineered with cushioning materials that absorb the impact of each step, reducing the stress on joints and muscles. Similarly, protective gear in contact sports, such as helmets and pads, is designed to absorb shock from impacts, safeguarding players from serious injuries. This application of absorption of shock not only enhances performance but also promotes safety in athletic activities.On a more personal level, the concept of absorption of shock can also be applied to emotional resilience. Life is filled with unexpected challenges and setbacks, and our ability to cope with these difficulties often determines our overall well-being. Just as physical materials can absorb shock, individuals can develop coping mechanisms to manage stress and adversity. Mindfulness practices, support networks, and positive thinking are all strategies that contribute to our emotional absorption of shock, allowing us to bounce back from life's challenges.In conclusion, the absorption of shock is a multifaceted concept that permeates various aspects of our lives. From engineering marvels that protect us during accidents to personal resilience in the face of adversity, the ability to absorb and manage shock is vital. By understanding and applying the principles of absorption of shock, we can enhance safety, improve performance, and foster emotional strength. As we continue to innovate and adapt in a rapidly changing world, the significance of this concept will only grow, reminding us of the importance of resilience in both our physical and emotional lives.

在我们的日常生活中，我们经常遇到“吸收冲击”这个概念在关键时刻发挥重要作用的情况。无论是在汽车设计、建筑施工，还是在我们处理易碎物品的方式上，理解如何有效地管理和减轻突发力量的影响都是至关重要的。“吸收冲击”是指材料或系统通过消散冲击能量来减少潜在损害的过程。这一原理不仅应用于工程领域，还涉及体育、安全设备，甚至在我们面对挑战时的情感韧性。“吸收冲击”最常见的应用之一可以在汽车工业中看到。汽车设计有碰撞区，这些区域在碰撞时会变形并吸收能量。这种设计特征有助于保护乘员，最小化传递给他们的力量。在这种情况下，“吸收冲击”关系到生死，突显了优先考虑安全的工程原则的重要性。同样，在建筑行业，建筑物被设计成能够承受地震，通过使用减震器和柔性材料来实现。这些结构必须能够承受地震活动施加的突然力量。有效的“吸收冲击”确保建筑物保持稳固，保护内部人员的生命。工程师采用先进的技术和材料，可以吸收和消散能量，从而增强基础设施的韧性。在体育运动中，运动员常常依赖专为“吸收冲击”设计的装备来防止受伤。例如，跑鞋的设计采用了缓冲材料，可以吸收每一步的冲击，减少对关节和肌肉的压力。同样，接触性运动中的保护装备，如头盔和护具，旨在吸收冲击，保护运动员免受严重伤害。“吸收冲击”的这一应用不仅提高了运动表现，也促进了运动活动的安全。在个人层面， “吸收冲击”的概念也可以应用于情感韧性。生活中充满了意想不到的挑战和挫折，我们应对这些困难的能力往往决定了我们的整体幸福感。就像物理材料可以吸收冲击一样，个人也可以发展应对机制来管理压力和逆境。正念练习、支持网络和积极思维都是有助于我们情感“吸收冲击”的策略，使我们能够从生活的挑战中反弹。总之，“吸收冲击”是一个多方面的概念，渗透到我们生活的各个方面。从保护我们在事故中不受伤害的工程奇迹，到面对逆境时的个人韧性，吸收和管理冲击的能力至关重要。通过理解和应用“吸收冲击”的原则，我们可以增强安全性、提高表现，并培养情感力量。随着我们在快速变化的世界中不断创新和适应，这一概念的重要性只会增加，提醒我们在身体和情感生活中都要具备韧性。