The Ayodhya Ram Mandir, a Hindu temple under construction in Ayodhya, Uttar Pradesh, India, is being designed to withstand a once-in-2,500-year earthquake. This is according to a study conducted by the Central Building Research Institute (CBRI).
The CBRI conducted a series of studies on the site, including geophysical characterization, geotechnical analysis, foundation design vetting, and 3D structural analysis. The aim of the studies was to ensure the structural safety of the temple for the Maximum Considered Earthquake (MCE), which is equivalent to a seismic event with a 2,500-year return period.
The temple's superstructure is made of Bansi Paharpur sandstone, a type of stone that is known for its strength and durability. The superstructure is also designed to be dry-jointed, meaning that there is no steel reinforcement. This type of construction is resistant to earthquakes because it allows the structure to move with the ground.
The foundation of the temple is made of concrete and steel. The foundation is designed to be deep and wide, which will help to anchor the temple to the ground and prevent it from being damaged by an earthquake.
The CBRI's study has concluded that the Ayodhya Ram Mandir is designed to withstand a once-in-2,500-year earthquake. This is a significant achievement, as it will help to ensure the safety of the temple and its visitors for centuries to come.
The construction of the Ayodhya Ram Mandir is a major undertaking, and it is expected to be completed in 2024. The temple is being built on a 2.77-acre site that was donated by the Indian government. The temple is expected to attract millions of visitors from around the world.
The Ayodhya Ram Mandir is a significant religious and cultural landmark, and its design to withstand a once-in-2,500-year earthquake is a testament to the engineering expertise of the CBRI.