aseismatic construction 的基础释义为:无地震的建筑。
发音为:/?e?z??m?st?k/。
以下是一篇关于无地震建筑的英语范文,供您参考:
Title: Aseismatic Construction
Aseismatic construction refers to buildings that are designed and constructed to minimize the risk of earthquake damage. These buildings are typically constructed using strong materials, such as concrete and steel, and are designed with earthquake resistance in mind.
One of the key features of aseismatic construction is its emphasis on building stability. To achieve this, engineers and architects typically consider factors such as building mass, structural design, and foundation stability. By using heavy materials and carefully planning the structure, engineers can reduce the likelihood of the building being toppled by an earthquake.
Another key aspect of aseismatic construction is its emphasis on building redundancy. Redundancy refers to the use of multiple systems or components to ensure that a building remains functional in the event of a disaster. For example, in earthquake-prone regions, engineers may use multiple layers of reinforced concrete to strengthen a building's structure, and may also install backup power sources and emergency generators to ensure that the building remains operational in the event of a power outage.
Aseismatic construction is not only crucial for protecting human life and property, but it is also essential for promoting sustainable development in earthquake-prone regions. By reducing the impact of earthquakes on buildings and communities, aseismatic construction can help to create safer and more resilient environments that are better able to withstand natural disasters.
希望以上内容能帮助您更好地理解“aseismatic construction”这个词汇。
aseismatic construction
释义:无地震建筑,抗震建筑
发音:英 [?e?z??m?t?k ?kɑ?str?nzi] 美 [?e?z??m?t?k ?kɑ?str?nsi]
英语范文:
Title: Building for Resilience: Aseismatic Construction in Nepal
Nepal is known for its rich cultural heritage and stunning mountain landscapes, but it is also facing a challenge that is becoming increasingly urgent: seismic safety of its buildings. Many of the country's ancient and modern structures are at risk due to the high frequency and intensity of earthquakes. This has led to the need for a new approach to building design and construction that is both seismic-resistant and aseismatic.
Aseismatic construction is a method of building design and construction that aims to reduce the risk of damage or collapse during an earthquake. It involves using strong, durable materials, proper foundation systems, and well-designed building structures that can withstand the forces of an earthquake. In Nepal, this approach has been adopted in many new buildings, as well as in renovations and repairs to existing structures.
One of the most important aspects of aseismatic construction is the use of strong, reliable materials. In Nepal, this often means using locally sourced stones and bricks, as well as high-quality cement and steel reinforcement bars. These materials provide a strong foundation for the building structure, reducing the risk of collapse during an earthquake.
Another key aspect of aseismatic construction is proper foundation systems. In Nepal, this often involves using deep pile foundations or solid rock anchors to support the building structure. These systems provide stability to the building during an earthquake, reducing the risk of damage or collapse.
In conclusion, aseismatic construction is a crucial approach to building design and construction in regions like Nepal that are prone to earthquakes. By using strong, reliable materials and proper foundation systems, we can build structures that are resilient to the forces of nature and ensure that our communities are safe and secure.
aseismatic construction
释义:无地震构造的建筑,抗震建筑
发音:英 [?e?z??m?t?k] [?k?n?str??k?n]
英语范文:
If we want to build a seismic construction, we need to consider several factors. Firstly, we need to use strong materials such as steel frames and concrete structures. These materials can withstand the forces of an earthquake and prevent damage to the building. Secondly, we need to design the building to withstand the shaking caused by an earthquake. This can be achieved by using strong foundations and ensuring that the building is well supported. Finally, we need to consider the safety of the building's occupants. We should ensure that there are enough exits and evacuation routes in case of an emergency.
In conclusion, seismic construction is a complex task that requires careful planning and implementation. By using strong materials, designing the building to withstand shaking, and ensuring the safety of occupants, we can build safe and resilient buildings that can withstand the forces of an earthquake.
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