A base isolation system with elastomeric isolators is a seismic protection technique used in buildings and structures to minimize the effects of ground motion during earthquakes. Elastomeric isolators are flexible devices typically made of layers of rubber and steel plates. They are placed between the building's foundation and superstructure to decouple them from ground motion.
Benefits of this system compared to conventional building techniques include:
• Reduced Impact of Ground Motion: Elastomeric isolators absorb and dissipate seismic energy, preventing the transfer of significant forces to the superstructure. This reduces the building's response to ground shaking and minimizes potential damage.
• Enhanced Structural Performance: By isolating the building from ground motion, the system allows structures to maintain their integrity and functionality even during strong earthquakes. This can lead to less structural damage and lower repair costs.
• Minimal Disruption to Functionality: Buildings equipped with base isolation systems are more likely to remain functional after an earthquake, enabling swift post-disaster recovery and reducing disruptions to daily operations.
• Longer Building Lifespan: Base isolation can extend the lifespan of a building by reducing wear and tear caused by seismic events. This is particularly valuable in regions prone to frequent earthquakes.
Source: future.architects_ on IG
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