An optimized floor design for heavy-weight impact vibration reduction in apartment buildings

• Autores: Sang Ho Seo, Seung Yup Yoo, Jin Yong Jeon
• Localización: Noise Control Engineering Journal, ISSN 0736-2501, Vol. 60, Nº. 5, 2012, págs. 539-547
• Idioma: inglés
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• Resumen

  • In this study, finite element method (FEM) models were used to calculate the reduction of floor impact vibrations in the floor structures of apartment buildings constructed with reinforced concrete. Field measurements were performed in heavy-weight floor structures, such as reinforced concrete slab, in order to analyze the characteristics of floor impact sound and vibration generated by heavy-weight impact sources. The results showed that floor impact vibrations produced dominant peaks at low frequencies below 100 Hz, and that floor impact sound levels were highly related to the levels of floor impact vibra¬tion in the structure. In addition, the finite element method was applied to pre¬dict the vibration characteristics; three types of finite element models with different shapes and boundary conditions were considered, and the predicted results were compared to field measurements. The results show that the simple two-dimensional model could also produce an accurate prediction of floor vibration. Through the Taguchi optimization method using an orthogonal array, the effects of dimensional factors in a living room design were investigated in terms of floor vibration reduction. Finally, a living room design was optimized to reduce floor impact vibration by around 40% in the maximum acceleration level.