Abstract
In Korean residential buildings, floor impact sounds were reduced over the past few decades mainly through a floating floor system. However, ceiling constructions for impact sound reduction have not been applied actively because of a lack of useful information. This study focuses on the effects of wall-to-wall supported ceilings (WSC), which are designed with construction discontinuities between concrete slabs and ceilings, and the damping caused by porous absorbers for impact sound insulation. To examine the impact sound insulation according to ceiling conditions, measurements were performed in 25 floor–ceiling assemblies. The results indicate that ceiling treatment is mostly useful in reducing the floor impact sound. The floor impact sound owing to the WSC decreased by 2–7 dB and 2–8 dB in terms of the single number quantity for the tapping machine and rubber balls, respectively, compared with representative existing housing constructions wherein ceilings were attached on wooden sticks. Furthermore, the reduction effect of the WSC appeared to be more profound when it was applied to the floor–ceiling assembly with poor impact sound insulation. Thus, the WSC can be used to enhance the impact of sound insulation of existing housings without major repairs of floor structural layers.
Highlights
Floor impact sounds, such as walker footsteps, constitute one of the major complaints of apartment residents in various countries, including South Korea and European countries [1,2]
In this study, we reviewed the effects of floor impact sound insulation using ceiling structures based on the use of two conventional ceiling structures used in South Korea as well as wall-to-wall supported ceiling structures developed for the reduction of floor impact sounds
The effect of the Wall Supported Ceiling (WSC) on impact sound insulation was more noticeable for floor structures with poor impact sound insulation
Summary
Floor impact sounds, such as walker footsteps, constitute one of the major complaints of apartment residents in various countries, including South Korea and European countries [1,2]. Shin et al [16] used a suspended ceiling with a perforated panel and porous absorbers and reported SNQ (Li,Fmax,Aw) reductions of 1 dB and 2 dB for a bang machine and rubber ball, respectively These results were obtained from a suspended ceiling installed at the bottom of the floating floor structures. In Korean apartments, pipes, ducts, and lighting systems were installed inside the ceiling cavity; ceiling structures are essential to screen these equipment types for clean finishing To this end, in this study, we reviewed the effects of floor impact sound insulation using ceiling structures based on the use of two conventional ceiling structures used in South Korea as well as wall-to-wall supported ceiling structures developed for the reduction of floor impact sounds
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