The research provides solution to a very relevant problem of earthquake catastrophe in big cities and high-rise buildings.
Video Link – https://drive.google.com/drive/u/0/folders/1UgJR6tBecn1g_1hmG0oeY3sxCQHMhwmb
MANDI, 19th April 2023: A team of researchers from Indian Institute of Technology Mandi led by Dr. Arpan Gupta, has proposed a 2D metamaterial-based foundation for protecting buildings against earthquakes.
The details of the research have been published in the journal Scientific Reports, in a paper co-authored by Dr. Arpan Gupta, Associate Professor, School of Engineering, IIT Mandi and his research scholars Mr Rishabh Sharma, Mr Aman Thakur and Dr. Preeti Gulia.
Explaining the significance of the research, Dr Arpan Gupta, IIT Mandi said, “By intelligently designing the foundation of the building, the earthquake waves can be diverted/reflected back, without causing much damage to the building. Any building requires a good foundation, but the key here is to have periodicity in the foundation design, and this is known as Metamaterial Foundation. Such periodic variation of material properties can lead to reflection of waves thereby protecting the building structure on that foundation.”
The team used two-dimensional metamaterials for this purpose. A metamaterial is created by assembling multiple elements made from composite materials like metals and plastics, usually arranged in repeating patterns that are smaller than the wavelengths of the phenomena they affect, such as earthquake vibrations or seismic waves. Seismic waves are elastic waves that transport energy through the Earth’s layers. Unlike other types of physical waves, seismic waves have long wavelengths and low frequencies. The investigation of metamaterials for seismic waves is a relatively new and highly complex field.
The IIT Mandi team studied a foundation consisting of repeating circular scatterers made of steel and lead embedded in a rubber matrix.
The concept of a 2D-metamaterial-based foundation for earthquake protection was tested on a computer model. A computer model of the foundation along with the building structure was subjected to earthquake excitations. Two cases were considered – concrete foundation and metamaterial foundation. In the case of concrete foundation, large vibrations were recorded, while in the case of metamaterial foundation – very minimal vibrations were observed.
Elaborating further, the lead researcher said, “We have shown that metamaterial foundations can effectively reduce ground accelerations caused by earthquake excitations. A comparison between concrete and metamaterial foundations shows that the metamaterial can significantly decrease the vibration response of building frames to earthquakes. The research indicates that the composite periodic foundation achieves satisfactory wave attenuation from 2.6 Hz to 7.8 Hz. This broad and low-frequency band gap is a noteworthy advancement that could assist in the creation of future metamaterial foundations for earthquake mitigation purposes.”
This study presents a significant step forward in the development of earthquake-resistant buildings. The metamaterial foundation can help reduce damage to structures and offer protection to people living in earthquake-prone regions of the world. The IIT Mandi team’s innovative research in this field could pave the way for the creation of more efficient and effective seismic metamaterial foundations.
Dr Arpan Gupta expressed his satisfaction with the results, saying, “Our work shows the potential of metamaterials to provide seismic protection to structures. We hope that our research will inspire other researchers to explore the possibilities of metamaterials in other areas of structural engineering and earthquake resistant buildings.”
The IIT Mandi team’s research has the potential to revolutionize the way we think about building foundations and could lead to significant advances in earthquake protection.
References:
https://www.nature.com/articles/d44151-023-00033-z
https://www.nature.com/articles/s41598-023-27678-1