regular earthquake—resistant building

简明释义

规则抗震建筑

英英释义

例句

1.Insurance companies offer lower premiums for homes built as regular earthquake—resistant buildings.

保险公司为建造为抗震建筑的房屋提供更低的保费。

2.Residents feel more secure living in a regular earthquake—resistant building during tremors.

居民在震动期间住在抗震建筑中感到更加安全。

3.The government has implemented new regulations requiring all new constructions to be regular earthquake—resistant buildings.

政府已实施新规，要求所有新建筑必须是抗震建筑。

4.In regions prone to seismic activity, constructing a regular earthquake—resistant building is essential for safety.

在地震频发的地区，建造一座抗震建筑对于安全至关重要。

5.Architects are now trained to design regular earthquake—resistant buildings that can withstand severe shocks.

建筑师现在接受培训，设计能够承受剧烈震动的抗震建筑。

作文

In recent years, the importance of constructing regular earthquake—resistant buildings has become increasingly evident, especially in regions prone to seismic activity. Earthquakes can cause devastating damage to infrastructure, leading to loss of life and property. Therefore, it is crucial to implement engineering practices that ensure the safety and resilience of buildings during such natural disasters. Regular earthquake—resistant buildings are designed to withstand the forces generated by ground shaking, thereby minimizing the risk of collapse. The concept of regular earthquake—resistant buildings involves several key principles. First and foremost, the design must account for the specific seismic characteristics of the area. This includes understanding the local geology, historical earthquake data, and potential ground motion scenarios. Engineers use this information to create structures that can absorb and dissipate energy effectively.Materials play a significant role in the construction of regular earthquake—resistant buildings. Reinforced concrete and steel are commonly used due to their strength and flexibility. These materials allow buildings to bend without breaking during an earthquake, which is essential for maintaining structural integrity. Additionally, the incorporation of base isolators can further enhance a building's ability to withstand seismic forces. Base isolators act as shock absorbers, allowing the building to move independently from the ground motion.Another critical aspect of regular earthquake—resistant buildings is their geometric configuration. Buildings with symmetrical shapes and uniform mass distribution tend to perform better during earthquakes. Irregular designs can lead to torsional effects, which may increase the likelihood of structural failure. Therefore, architects and engineers must collaborate closely to ensure that the aesthetic aspects of a building do not compromise its seismic performance.Moreover, the importance of regular maintenance cannot be overlooked. Even the most well-designed regular earthquake—resistant buildings require periodic inspections and repairs to address wear and tear over time. Local governments and building owners must prioritize these activities to ensure that the structures remain safe for occupants.Public awareness and education about the significance of regular earthquake—resistant buildings are also vital. Communities should be informed about the risks associated with earthquakes and the measures that can be taken to mitigate them. This includes advocating for stricter building codes and encouraging residents to support initiatives aimed at retrofitting older structures to meet modern seismic standards.In conclusion, the construction of regular earthquake—resistant buildings is essential for protecting lives and property in earthquake-prone areas. By adhering to sound engineering principles, using appropriate materials, ensuring proper design, and promoting public awareness, we can significantly reduce the impact of earthquakes on our communities. Investing in earthquake-resistant infrastructure is not just a matter of safety; it is a commitment to resilience and sustainability in the face of natural disasters.

近年来，建设常规抗震建筑的重要性变得越来越明显，尤其是在地震活动频繁的地区。地震可能对基础设施造成毁灭性损害，导致生命和财产的损失。因此，实施确保建筑在这种自然灾害期间的安全和韧性的工程实践至关重要。常规抗震建筑旨在承受由地面震动产生的力量，从而最大限度地降低倒塌的风险。常规抗震建筑的概念涉及几个关键原则。首先，设计必须考虑该地区特定的地震特征。这包括了解当地地质、历史地震数据和潜在的地面运动情景。工程师利用这些信息创建能够有效吸收和耗散能量的结构。材料在常规抗震建筑的施工中起着重要作用。由于其强度和灵活性，钢筋混凝土和钢材被广泛使用。这些材料使建筑物在地震期间能够弯曲而不破裂，这对于保持结构完整性至关重要。此外，基座隔震器的使用可以进一步增强建筑物抵御地震力量的能力。基座隔震器充当减震器，使建筑物能够独立于地面运动而移动。常规抗震建筑的另一个关键方面是其几何配置。形状对称、质量分布均匀的建筑在地震中表现更好。不规则的设计可能导致扭转效应，从而增加结构失效的可能性。因此，建筑师和工程师必须紧密合作，以确保建筑的美学方面不会妨碍其抗震性能。此外，定期维护的重要性也不能被忽视。即使是设计良好的常规抗震建筑也需要定期检查和修理，以应对随着时间推移的磨损。地方政府和建筑业主必须优先考虑这些活动，以确保建筑物对居住者保持安全。公众对常规抗震建筑重要性的认识和教育也至关重要。社区应该了解与地震相关的风险以及可以采取的减轻措施。这包括倡导更严格的建筑法规，并鼓励居民支持旨在使老旧建筑符合现代抗震标准的举措。总之，建设常规抗震建筑对于保护地震多发地区的生命和财产至关重要。通过遵循合理的工程原则，使用适当的材料，确保合理的设计，以及促进公众意识，我们可以显著减少地震对我们社区的影响。投资于抗震基础设施不仅是安全问题；而是对在自然灾害面前的韧性和可持续性的承诺。