aseismatic construction

简明释义

抗震措施

英英释义

例句

1.Investing in aseismatic construction can save lives and reduce economic losses during earthquakes.

投资于抗震结构可以拯救生命并减少地震期间的经济损失。

2.Local governments are encouraging developers to adopt aseismatic construction practices in their projects.

地方政府鼓励开发商在其项目中采用抗震结构实践。

3.Engineers are studying the aseismatic construction methods used in Japan to improve safety in seismic zones.

工程师们正在研究日本使用的抗震结构方法，以提高地震区的安全性。

4.The new school building is designed with aseismatic construction features to ensure the safety of students.

新学校建筑设计采用了抗震结构特征，以确保学生的安全。

5.The city implemented new regulations for all buildings to incorporate aseismatic construction techniques to reduce earthquake damage.

该市实施了新的规定，要求所有建筑采用抗震结构技术以减少地震损害。

作文

In recent years, the importance of aseismatic construction has become increasingly evident, particularly in regions prone to earthquakes. 抗震建筑 refers to the design and construction techniques that aim to make buildings more resistant to seismic activity. As urban populations grow and more people inhabit earthquake-prone areas, the need for aseismatic construction is paramount to ensure the safety and longevity of structures. One of the fundamental principles of aseismatic construction is the use of flexible materials that can absorb and dissipate energy during an earthquake. Traditional building materials, such as concrete and brick, are often rigid and can crack or collapse under the stress of seismic forces. However, by incorporating materials like steel and advanced composites, engineers can create buildings that sway rather than break when subjected to ground movement. This flexibility is crucial in preventing catastrophic failures during an earthquake.Moreover, aseismatic construction involves innovative architectural designs that distribute weight evenly throughout the structure. For instance, structures may be designed with a lower center of gravity, which helps to stabilize them during seismic events. Additionally, the incorporation of base isolators—devices that allow a building to move independently of ground motion—has proven effective in protecting buildings from earthquake damage. Another critical aspect of aseismatic construction is the adherence to strict building codes and regulations that mandate earthquake-resistant designs. Many countries have established guidelines that dictate how new buildings should be constructed in seismic zones. These regulations are based on extensive research and historical data about past earthquakes, helping architects and engineers to implement the best practices in their designs. Public awareness and education about aseismatic construction are also vital. Communities must understand the importance of these techniques not only for new buildings but also for retrofitting existing structures. Many older buildings were constructed before modern engineering principles were established, making them particularly vulnerable to earthquakes. Retrofitting these buildings with aseismatic construction techniques can significantly reduce the risk of damage and save lives during seismic events. In conclusion, the significance of aseismatic construction cannot be overstated, especially in today's world where urbanization continues to rise in seismically active regions. By employing flexible materials, innovative designs, and adhering to stringent building codes, we can create safer environments for future generations. As we advance in technology and engineering practices, the potential for aseismatic construction to save lives and protect property will only increase, making it a critical focus for architects, engineers, and policymakers alike.

近年来，抗震建筑的重要性日益显现，特别是在地震频发的地区。抗震建筑是指旨在使建筑物对地震活动更具抵抗力的设计和施工技术。随着城市人口的增长，越来越多的人居住在易发生地震的地区，抗震建筑的需求变得至关重要，以确保结构的安全性和持久性。抗震建筑的基本原则之一是使用能够在地震期间吸收和消散能量的柔性材料。传统建筑材料，如混凝土和砖块，通常是刚性的，可能在地震力量的压力下开裂或倒塌。然而，通过结合钢材和先进复合材料，工程师可以创造出在地面运动时能够摇摆而不是破裂的建筑。这种灵活性对于在地震期间防止灾难性故障至关重要。此外，抗震建筑还涉及创新的建筑设计，以均匀分配结构的重量。例如，建筑可以设计成较低的重心，这有助于在地震事件中稳定它们。此外，基础隔离装置——允许建筑独立于地面运动移动的装置——在保护建筑免受地震损害方面已被证明有效。抗震建筑的另一个关键方面是遵循严格的建筑规范和法规，这些规范和法规规定了地震区新建筑的抗震设计要求。许多国家已经建立了指导方针，规定在地震带内新建筑应如何建造。这些规定基于广泛的研究和关于过去地震的历史数据，帮助建筑师和工程师在其设计中实施最佳实践。公众对抗震建筑的意识和教育也至关重要。社区必须了解这些技术的重要性，不仅适用于新建筑，还适用于对现有结构的加固。许多老建筑是在现代工程原则建立之前建造的，因此特别容易受到地震的影响。使用抗震建筑技术对这些建筑进行加固，可以显著降低损坏风险，并在地震事件中拯救生命。总之，抗震建筑的重要性不容低估，特别是在当今城市化不断上升的地震活跃地区。通过采用柔性材料、创新设计以及遵循严格的建筑规范，我们可以为未来几代人创造更安全的环境。随着我们在技术和工程实践上的进步，抗震建筑拯救生命和保护财产的潜力将只会增加，使其成为建筑师、工程师和政策制定者共同关注的关键焦点。