A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Development of Sustainable Earthquake Resistant Building for Future Generations
The development of lightweight, earthquake-proof buildings is a dream for developing nations like India. Scientists from all around are contributing to the progress of our country in future. New materials and techniques are being explored to make buildings more resilient to tremors. Composite framed structures are framed systems that provide several benefits, including lower overall construction costs, longer building lifespans, and resistance to natural catastrophes like earthquakes and hurricanes. Natural disasters like earthquakes are commonplace everywhere on Earth. Based on statistical analysis of the country's geography, about 54% of India is at risk from earthquakes. Large amounts of infrastructure and building damage are caused by these tremors. During an earthquake, flaws in the construction may become apparent and even seemingly sturdy structures may collapse. The knowledge gathered from the 2013 Indonesian earthquake shows that the majority of the fallen structures did not conform to the standards of the current regulations. Many buildings were severely damaged or completely collapsed, prompting doubts about the resilience of framed structures to earthquakes. Evaluation of a structure's resilience to earthquake damage may be accomplished with the use of pushover analysis. The suggested research looked at a seismic analysis of a G+4 storey residential RCC building which is existing in Port Blair, Andaman and Nicobar Islands. When a beam or column fails, the yielding part is represented as a “plastic hinge.“ Building pushover study in X and Y directions was carried out using SAP2000 version 14. The design forces are computed using the equivalent lateral force (ELF) method and then distributed vertically over the building. The major purpose of the research which is discussed in this paper examined the performance of the RCC structures in the seismic occurrences.
Development of Sustainable Earthquake Resistant Building for Future Generations
The development of lightweight, earthquake-proof buildings is a dream for developing nations like India. Scientists from all around are contributing to the progress of our country in future. New materials and techniques are being explored to make buildings more resilient to tremors. Composite framed structures are framed systems that provide several benefits, including lower overall construction costs, longer building lifespans, and resistance to natural catastrophes like earthquakes and hurricanes. Natural disasters like earthquakes are commonplace everywhere on Earth. Based on statistical analysis of the country's geography, about 54% of India is at risk from earthquakes. Large amounts of infrastructure and building damage are caused by these tremors. During an earthquake, flaws in the construction may become apparent and even seemingly sturdy structures may collapse. The knowledge gathered from the 2013 Indonesian earthquake shows that the majority of the fallen structures did not conform to the standards of the current regulations. Many buildings were severely damaged or completely collapsed, prompting doubts about the resilience of framed structures to earthquakes. Evaluation of a structure's resilience to earthquake damage may be accomplished with the use of pushover analysis. The suggested research looked at a seismic analysis of a G+4 storey residential RCC building which is existing in Port Blair, Andaman and Nicobar Islands. When a beam or column fails, the yielding part is represented as a “plastic hinge.“ Building pushover study in X and Y directions was carried out using SAP2000 version 14. The design forces are computed using the equivalent lateral force (ELF) method and then distributed vertically over the building. The major purpose of the research which is discussed in this paper examined the performance of the RCC structures in the seismic occurrences.
Development of Sustainable Earthquake Resistant Building for Future Generations
Lecture Notes in Civil Engineering
Gencel, Osman (editor) / Balasubramanian, M. (editor) / Palanisamy, T. (editor) / Chandrikka, V. (author) / Rajkumar, D. Shoba (author)
International Conference on Civil Engineering Innovative Development in Engineering Advances ; 2023 ; Kattankulathur, India
2023-11-21
11 pages
Article/Chapter (Book)
Electronic Resource
English
| Online Contents | 1993