earthquake resistant structure

简明释义

抗震结构

英英释义

例句

1.Engineers are focusing on developing earthquake resistant structures in areas prone to seismic activity.

工程师们专注于在易发生地震的地区开发抗震结构。

2.The government has mandated that all new public buildings must be earthquake resistant structures.

政府已规定所有新建公共建筑必须是抗震结构。

3.Retrofitting older buildings to become earthquake resistant structures is crucial for urban safety.

对老旧建筑进行改造，使其成为抗震结构对城市安全至关重要。

4.The architects presented their designs for earthquake resistant structures at the conference.

建筑师们在会议上展示了他们的抗震结构设计。

5.The new school building was designed as an earthquake resistant structure to ensure the safety of students during seismic events.

新建的学校建筑被设计为抗震结构，以确保学生在地震事件中的安全。

作文

In recent years, the increasing frequency and intensity of earthquakes have raised significant concerns regarding the safety and resilience of buildings. As a result, engineers and architects have focused on developing innovative designs and materials to create earthquake resistant structures (抗震结构). These structures are specifically designed to withstand the forces generated by seismic activity, ensuring the safety of occupants and minimizing damage during an earthquake.The concept of earthquake resistant structures (抗震结构) is rooted in understanding the mechanics of seismic waves and how they interact with different types of buildings. When an earthquake occurs, the ground shakes violently, causing buildings to sway. This lateral movement can lead to structural failure if the building is not adequately designed to handle these forces. Therefore, engineers employ various strategies to enhance the stability and flexibility of buildings.One common approach is to use flexible materials that can absorb and dissipate energy. For instance, incorporating steel frames or reinforced concrete can significantly improve a building's ability to withstand seismic forces. Additionally, base isolation systems are becoming increasingly popular. These systems involve placing a building on flexible bearings that allow it to move independently from ground motion, thereby reducing the amount of energy transferred to the structure during an earthquake.Another critical aspect of earthquake resistant structures (抗震结构) is the importance of proper architectural design. Buildings must be symmetrical and evenly distributed in mass to prevent torsional movements during seismic events. Furthermore, the height and shape of a building can greatly influence its performance during an earthquake. Taller buildings, for example, may require additional bracing or damping systems to ensure stability.In addition to engineering and architectural considerations, building codes and regulations play a vital role in the development of earthquake resistant structures (抗震结构). Many countries have established stringent building codes that dictate the minimum design standards for new constructions in earthquake-prone areas. Compliance with these codes is essential to ensure that buildings can withstand potential seismic events.Public awareness and education are also crucial in promoting the adoption of earthquake resistant structures (抗震结构). Homeowners and community leaders should understand the importance of investing in resilient infrastructure. By prioritizing the construction of buildings that can endure earthquakes, communities can reduce the risk of loss of life and property damage, ultimately leading to quicker recovery times after seismic events.In conclusion, the development of earthquake resistant structures (抗震结构) is a critical aspect of modern architecture and engineering. Through innovative designs, the use of advanced materials, and adherence to building codes, we can create safer environments for people living in earthquake-prone regions. As we continue to learn more about seismic activity and its effects, it is imperative that we invest in the research and development of resilient structures to safeguard our communities against the inevitable challenges posed by nature.

近年来，地震频率和强度的增加引发了人们对建筑物安全性和韧性的重大关注。因此，工程师和建筑师专注于开发创新设计和材料，以创建抗震结构（earthquake resistant structures）。这些结构专门设计用于承受地震活动产生的力量，确保居住者的安全，并在地震期间尽量减少损害。抗震结构（earthquake resistant structures）的概念源于对地震波力学的理解，以及它们如何与不同类型建筑物相互作用。当地震发生时，地面剧烈摇动，导致建筑物摆动。如果建筑物没有经过充分设计以应对这些力量，就可能导致结构失效。因此，工程师采用各种策略来增强建筑物的稳定性和灵活性。一种常见的方法是使用可以吸收和消散能量的灵活材料。例如，结合钢框架或钢筋混凝土可以显著提高建筑物抵御地震力量的能力。此外，基础隔离系统正变得越来越流行。这些系统涉及将建筑物放置在灵活的支承上，使其能够独立于地面运动移动，从而减少地震发生时传递到结构的能量。抗震结构（earthquake resistant structures）的另一个关键方面是适当的建筑设计的重要性。建筑物必须是对称的，质量分布均匀，以防止在地震事件中发生扭转运动。此外，建筑物的高度和形状会极大影响其在地震中的表现。例如，更高的建筑物可能需要额外的支撑或阻尼系统以确保稳定性。除了工程和建筑考虑之外，建筑规范和法规在抗震结构（earthquake resistant structures）的开发中也发挥着至关重要的作用。许多国家已经建立了严格的建筑规范，规定了在地震多发地区新建建筑的最低设计标准。遵守这些规范对于确保建筑物能够承受潜在的地震事件至关重要。公众意识和教育在促进抗震结构（earthquake resistant structures）采用方面也至关重要。房主和社区领导者应该理解投资于韧性基础设施的重要性。通过优先考虑建设能够承受地震的建筑，社区可以降低生命损失和财产损失的风险，最终导致在地震事件后更快的恢复时间。总之，抗震结构（earthquake resistant structures）的开发是现代建筑和工程的重要方面。通过创新设计、使用先进材料以及遵循建筑规范，我们可以为生活在地震多发地区的人们创造更安全的环境。随着我们继续了解更多关于地震活动及其影响的信息，投资于韧性结构的研究和开发，以保护我们的社区免受自然带来的不可避免的挑战，是至关重要的。