Applied Sciences (Apr 2025)

Experimental and Numerical Investigation of Vibration-Suppression Efficacy in Spring Pendulum Pounding-Tuned Mass Damper

  • Qi Wang,
  • Lipeng Zhang,
  • Hongnan Li,
  • Xin Guo

DOI
https://doi.org/10.3390/app15084297
Journal volume & issue
Vol. 15, no. 8
p. 4297

Abstract

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Originally proposed by the authors, the spring pendulum pounding-tuned mass damper (SPPTMD)—a novel nonlinear damping system comprising a spring pendulum (SP) and motion limiter that dissipates energy through spring resonance amplification and controlled mass-limiter impacts—was theoretically validated for structural vibration control. To experimentally verify its efficacy, a two-story, lightly damped steel frame was subjected to sinusoidal excitation and historical earthquake excitations under both uncontrolled and SPPTMD-controlled conditions. The results demonstrated (1) significant vibration attenuation through SPPTMD implementation and (2) enhanced control effectiveness in soft soil environments compared to stiff soil conditions. Additionally, a numerical model of the SPPTMD–structure system was developed, with computational results showing excellent correlation to experimental data, thereby confirming modeling accuracy.

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