impact load
简明释义
冲击负荷
英英释义
例句
1.Engineers must calculate the impact load 冲击载荷 when assessing the safety of a building during an earthquake.
工程师在评估建筑物在地震期间的安全性时,必须计算冲击载荷。
2.The bridge was designed to withstand a significant impact load 冲击载荷 from heavy vehicles.
这座桥的设计能够承受来自重型车辆的显著冲击载荷。
3.The impact load 冲击载荷 from falling debris can damage the roof of a structure.
落下的碎片所产生的冲击载荷可能会损坏建筑物的屋顶。
4.In sports engineering, understanding the impact load 冲击载荷 on athletes' joints is crucial for injury prevention.
在体育工程中,了解运动员关节上的冲击载荷对预防伤害至关重要。
5.The manufacturer tested the product under various impact loads 冲击载荷 to ensure durability.
制造商在不同的冲击载荷下测试产品,以确保其耐用性。
作文
Understanding the concept of impact load is crucial in various fields such as engineering, construction, and safety management. An impact load refers to the force or load that is applied suddenly to a structure or material, often resulting from a collision or an abrupt change in motion. This type of load can cause significant stress on materials, leading to potential failure if not properly accounted for in design and analysis.In engineering, for instance, when designing bridges, engineers must consider the impact load that vehicles will exert upon them. Heavy trucks or emergency vehicles can create forces much greater than their static weight when they move at high speeds or come to an abrupt stop. Therefore, the bridge must be designed to withstand these sudden loads to ensure safety and longevity.Similarly, in the field of construction, understanding impact load is essential when erecting buildings and other structures. For example, if a crane drops a heavy object during construction, the resulting impact load can damage the building's framework or foundation if it has not been designed to absorb such forces. Safety protocols often include measures to mitigate the risks associated with impact loads, such as using shock absorbers or designing flexible structures that can dissipate energy.Moreover, the concept of impact load extends beyond just physical structures. In safety management, understanding how to handle impact loads is vital in creating protocols for emergency situations. For instance, in the event of a natural disaster, the sudden forces exerted on buildings can lead to catastrophic failures. Emergency preparedness plans must account for these impact loads to ensure that structures can withstand unexpected forces, thereby protecting lives and minimizing damage.In sports and physical activities, the term impact load also finds relevance. Athletes often experience impact loads during high-intensity training or competitive events. For example, runners experience significant impact loads on their joints with each step they take. Understanding how these forces affect the body can help in developing better training regimes and injury prevention strategies.In conclusion, the term impact load encompasses a wide range of applications across various fields. It represents the sudden forces that can have profound effects on structures, safety protocols, and even human health. By understanding and addressing impact loads, professionals can enhance the safety and effectiveness of their designs and practices. As we continue to advance in technology and construction methods, the importance of accounting for impact loads will only grow, making it a critical aspect of modern engineering and safety management.
理解冲击载荷的概念在工程、建筑和安全管理等多个领域至关重要。冲击载荷是指突然施加于结构或材料上的力或载荷,通常是由于碰撞或运动的突然变化而产生。这种类型的载荷会对材料造成显著的应力,如果在设计和分析中没有妥善考虑,可能导致潜在的故障。例如,在工程领域,设计桥梁时,工程师必须考虑车辆对其施加的冲击载荷。重型卡车或应急车辆在高速行驶或突然停车时,会产生远大于其静态重量的力量。因此,桥梁必须设计成能够承受这些突然载荷,以确保安全和耐久性。同样,在建筑领域,理解冲击载荷在建造建筑物和其他结构时至关重要。例如,如果在施工过程中起重机掉落重物,产生的冲击载荷可能会损坏建筑的框架或基础,如果没有设计来吸收这种力量。安全协议通常包括减轻与冲击载荷相关风险的措施,例如使用减震器或设计灵活的结构以分散能量。此外,冲击载荷的概念不仅限于物理结构。在安全管理中,理解如何处理冲击载荷对于制定应急情况的协议至关重要。例如,在自然灾害发生时,施加在建筑物上的突然力量可能导致灾难性的失败。应急准备计划必须考虑这些冲击载荷,以确保结构能够承受意外的力量,从而保护生命并最小化损失。在体育和身体活动中,冲击载荷一词也有所涉及。运动员在高强度训练或比赛中常常会经历冲击载荷。例如,跑步者在每一步中都会对关节施加显著的冲击载荷。理解这些力量如何影响身体可以帮助制定更好的训练方案和预防伤害的策略。总之,冲击载荷一词涵盖了多个领域的广泛应用。它代表了可能对结构、安全协议甚至人类健康产生深远影响的突然力量。通过理解和应对冲击载荷,专业人员可以提升其设计和实践的安全性和有效性。随着我们在技术和建筑方法上的不断进步,考虑冲击载荷的重要性只会增加,使其成为现代工程和安全管理中的关键方面。
