An experimental study on a novel reclaimed rubber compound for fiber-reinforced seismic isolators

Classical rubber seismic isolators reinforced with steel shims are generally large, heavy, and expensive so rarely used for housing buildings. In the last few years, different technologies have been investigated and fiber rein-forced elastomeric isolators (FREIs) demonstrated to be a promising option. Only by properly combining a lower cost of raw materials including the manufacturing process and an easier installation process can result in a cost-effective solution. In the present study, novel reclaimed-rubber FREIs reinforced with low cost fabrics were designed and manufactured. A reclaimed compound (RC) has been developed resulting in mechanical properties not significantly different from virgin rubber. Mechanical characterization of the RC showed a typical response of soft compound even if with lower tensile deformation capacity. RC adhesion with polyester and nylon fabrics was investigated in order to prevent debonding between different layers. In this regard recycled-rubber FREIs with polyester and nylon fabrics were manufactured and tested in unbonded configuration. The devices showed promising performance and paved the way for the development of low-cost and environmental-friendly seismic isolators for housing buildings.

Automated summary

Classical rubber seismic isolators reinforced with steel shims are rarely used for housing buildings due to their large size, heavy weight, and high cost. In recent years, fiber reinforced elastomeric isolators (FREIs) have been investigated as a promising alternative. This study designed and manufactured novel reclaimed-rubber FREIs reinforced with low cost fabrics, showing promising performance and providing a technical basis for the development of low-cost and environmentally friendly seismic isolators for housing buildings.