Current Science

Shamsul Bashir
Academy of Scientific and Innovative Research, Ghaziabad 201 002, India

Nasim Akhtar
Academy of Scientific and Innovative Research, Ghaziabad 201 002, India

Abstract

The present study introduces a novel mass-spring system utilizing a well-designed polyurethane pad vibration isolator conceptually designed as a floating slab track structure. The floating slab track is considered one of the most efficient countermeasures for attenuating the vibration impacts of underground high-speed railways. The dynamic performance of the polyurethane slab track structure was studied and compared with the steel-spring floating slab track using a conventional mathematical approach based on the principle of influence lines. The study examines vibration isolation performance under dynamic vehicle loads at speeds ranging from 180 to 300 kmph. Results indicate a significant reduction in slab dynamic responses with increasing speed. Both systems demonstrate excellent vibration-damping ability, with the steel mass-spring system being approximately 18% more efficient in vibration reduction than the polyurethane mass-spring system.

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