This paper deals with reducing floor impact vibration and sound by using a momentum exchange impact damper. The impact damper consists of a spring and a mass that is contact with the floor. When a falling object collides with the floor, the floor interacts with the damper mass, and the momentum of the falling object is transferred to the damper. In this works a computational model is formulated to simulate dynamic floor vibration induced by impact. The floor vibration is simulated for various sized damper masses. A proof-of-concept experimental apparatus was fabricated to represent a floor with an impact damper. This example system consists of an acrylic plate, a ball for falling object, and an impact damper. A comparison between simulated and experimental results were in good agreement in suggesting that the proposed impact damper is effective at reducing floor impact vibration and sound by 25% and 63%, respectively.
[1]
Anthony C. Webster,et al.
Application of Tuned Mass Dampers To Control Vibrations of Composite Floor Systems
,
2003
.
[2]
D. E. Allen,et al.
A simple absorber for walking vibrations
,
1984
.
[3]
A. Love.
A treatise on the mathematical theory of elasticity
,
1892
.
[4]
Linda M. Hanagan,et al.
Active Control Approach for Reducing Floor Vibrations
,
1997
.
[5]
Hisashi Kobayashi,et al.
Modeling and analysis
,
1978
.
[6]
A. Craggs,et al.
A finite element model for acoustically lined small rooms
,
1986
.
[7]
Mehdi Setareh,et al.
Tuned Mass Dampers to Control Floor Vibration from Humans
,
1992
.
[8]
Hidenori Sato,et al.
Modeling and Analysis of Impact System Composed of Ball and Plane.
,
1999
.