a prototype isolator to effectively mitigate the effects of earthquakes on low-rise buildings in high seismic regions

About

Background Studies of past earthquakes, especially in developing countries, have shown that numerous deaths are often attributed to the collapse of poorly constructed housing. If the level of seismic demand, imposed on these buildings, was reduced through a simple but reliable base isolation technique, fewer buildings would fail and fewer lives would be lost. Technology Overview Researchers at McMaster University’s Department of Civil Engineering have developed a prototype isolator to effectively mitigate the effects of earthquakes on low-rise buildings in high seismic regions (Figure 1). This invention bridges the gap between a traditionally fully bonded elastomer bearing and an unbonded elastomeric isolator. Recent research has demonstrated the effectiveness of an unbonded fiber‑reinforced elastomeric isolator. However, unlike a fully bonded elastomeric isolator, an unbonded isolator cannot resist any (uplift) tensile forces. Similar to a stable unbonded fiber-reinforced elastomeric isolator, a partially bonded bearing still exhibits a reduction in horizontal stiffness when displaced laterally. In addition, the partial bond between the bearing and the contact surfaces allows the isolator to resist (uplift) tensile forces. Finite element simulations have confirmed the response characteristics of a partially bonded bearing. Further Details: Partially Bonded Fiber Reinforced Elastomeric Isolators (PB-FREIs) Stage of Development: Proof of principle complete and tested. Technology is being optimized for various seismic conditions. 12-064

Key Benefits

• Superior performance and efficiency when compared to fully-bonded bearings • Can resist (uplift) tensile forces unlike its bonded counterparts • Transfers tensile forces to potentially eliminate the need of tie-downs or restraints • Ability to mitigate repeated slip or walk-out

Applications

• Seismic mitigation solution for low-rise buildings • Suitable for other structures including masonry buildings, bridges, etc.

Register for free for full unlimited access to all innovation profiles on LEO

  • Discover articles from some of the world’s brightest minds, or share your thoughts and add one yourself
  • Connect with like-minded individuals and forge valuable relationships and collaboration partners
  • Innovate together, promote your expertise, or showcase your innovations