design for earthquake resistance

简明释义

抗震设计;

英英释义

例句

1.In regions prone to seismic activity, it is crucial to design for earthquake resistance.

在地震活动频繁的地区，进行抗震设计至关重要。

2.The engineers decided to design for earthquake resistance in the new skyscraper project.

工程师们决定在新的摩天大楼项目中进行抗震设计。

3.Architects must incorporate techniques that design for earthquake resistance into their plans.

建筑师必须在他们的计划中融入能够进行抗震设计的技术。

4.The building code requires all new constructions to design for earthquake resistance.

建筑规范要求所有新建工程都必须进行抗震设计。

5.Retrofitting older buildings often involves designing for earthquake resistance.

对老旧建筑进行改造通常涉及到抗震设计。

作文

In recent years, the frequency of earthquakes has increased in various parts of the world, prompting engineers and architects to focus on effective strategies for minimizing damage during seismic events. One critical approach that has emerged is the concept of design for earthquake resistance, which refers to the methods and techniques employed in constructing buildings and infrastructure that can withstand the forces generated by an earthquake. This design philosophy aims to protect both lives and property by ensuring that structures remain stable and functional even when subjected to intense shaking.The fundamental principle behind design for earthquake resistance is to create a structure that can absorb and dissipate the energy released during an earthquake. This involves several key elements, including the use of flexible materials, innovative architectural designs, and advanced engineering techniques. For instance, buildings may be constructed with materials such as steel and reinforced concrete, which have the ability to bend and sway without breaking. Additionally, the incorporation of shock absorbers and base isolators can significantly enhance a building's ability to withstand seismic forces.Another important aspect of design for earthquake resistance is the consideration of a building’s shape and mass distribution. Structures that are tall and slender may be more susceptible to swaying during an earthquake, whereas those with a wider base and lower center of gravity tend to perform better under seismic loads. Architects and engineers must carefully analyze the potential risks associated with different designs and choose configurations that minimize the likelihood of structural failure.Moreover, local building codes and regulations play a vital role in promoting design for earthquake resistance. Many regions prone to seismic activity have established strict guidelines that dictate how buildings should be designed and constructed. These codes are based on extensive research and historical data regarding past earthquakes, providing valuable insights into what works and what does not. Compliance with these regulations not only ensures the safety of occupants but also helps to reduce the overall economic impact of earthquakes on communities.Education and awareness about design for earthquake resistance are also crucial. Homeowners, developers, and policymakers must understand the importance of incorporating seismic safety measures into their projects. By fostering a culture of preparedness and resilience, communities can better equip themselves to face the challenges posed by natural disasters.In conclusion, the concept of design for earthquake resistance is essential in today’s world, where the risk of earthquakes cannot be ignored. Through careful planning, innovative engineering, and adherence to building codes, we can create safer environments that protect lives and property from the devastating effects of seismic events. As we continue to learn from past experiences and advancements in technology, the future of earthquake-resistant design looks promising, paving the way for a more resilient society.

近年来，地震在世界各地的频率增加，促使工程师和建筑师专注于有效的策略，以在地震事件中最小化损害。出现的一个关键方法是抗震设计的概念，即在建造建筑物和基础设施时采用的方法和技术，旨在承受地震产生的力量。这种设计理念旨在保护生命和财产，确保结构在受到强烈震动时仍能保持稳定和功能。抗震设计背后的基本原则是创建一个能够吸收和耗散地震释放的能量的结构。这涉及几个关键要素，包括使用灵活的材料、创新的建筑设计和先进的工程技术。例如，建筑可以使用钢材和钢筋混凝土等材料，这些材料具有在不破裂的情况下弯曲和摇摆的能力。此外，结合减震器和基础隔离装置可以显著增强建筑物抵御地震力的能力。抗震设计的另一个重要方面是考虑建筑物的形状和质量分布。高而纤细的结构在地震期间可能更容易摇摆，而底座宽且重心较低的建筑在承受地震荷载时表现更好。建筑师和工程师必须仔细分析不同设计所带来的潜在风险，并选择最小化结构失效可能性的配置。此外，当地建筑法规和规定在促进抗震设计中发挥着至关重要的作用。许多地震活动频繁的地区制定了严格的指南，规定建筑应如何设计和建造。这些规范基于广泛的研究和关于过去地震的历史数据，提供了有关什么有效、什么无效的宝贵见解。遵守这些规定不仅确保了居住者的安全，还帮助减少地震对社区的整体经济影响。关于抗震设计的教育和意识也至关重要。房主、开发商和政策制定者必须理解将抗震安全措施纳入其项目的重要性。通过培养准备和韧性的文化，社区可以更好地装备自己，以应对自然灾害带来的挑战。总之，抗震设计的概念在当今世界中至关重要，因为地震的风险不容忽视。通过精心规划、创新工程和遵循建筑规范，我们可以创造出更安全的环境，以保护生命和财产免受地震事件的破坏性影响。随着我们继续从过去的经验和技术进步中学习，抗震设计的未来看起来充满希望，为更具韧性的社会铺平了道路。