Abstract
This paper provides an experimental study and computer modeling analysis of vibration performance of full-scale wood truss joist floors, related to the static deflection and vibration mode/frequency and single-person-induced vibration. The vibration behavior of full-scale truss joist floors was investigated and the influences of the strongbacks on the vibration behavior were assessed. The results showed that the simulated predictions agreed well with the measured results. Strongbacks do not significantly affect the fundamental frequency of the truss joist floors but influence the second and third modal frequencies. The use of strongback rows at mid-span effectively decreased the maximum deformation of point loading at floor center. The effect of adding strongbacks at one-third of each span on decreasing maximum deformation at the floor center was minimal. The case of walking parallel to the joist produced higher acceleration response at the floor center than that of walking perpendicular to the joist. The closer the placements of strongbacks were to the mid-span, the more significant reduction of the vibration at floor center was. Two strongback rows at mid-span performed the best effect on reduction of vibration response at floor center. However, the use of strongbacks had limits of reduction peak acceleration of the sheathing between the joists. The study provides a valuable guide for future vibration serviceability study and design optimization of wood truss joist floors.
Highlights
Wood truss joist floors are a new generation of lightweight timber floor systems and are increasingly being used for intermediate-span timber floors in low-rise timber residences
The use of one strongback row at the mid-span (Floor B) only increased the frequency by 1 Hz for the second mode and by 2.4 Hz for the third mode compared to the floor without strongbacks (Floor A)
The use of three strongback rows (Floor D, one for the mid-span and the other two rows for one-third of the span) compared to Floor B enhanced the second frequency by 1.3 Hz and the third frequency by 2 Hz
Summary
Wood truss joist floors are a new generation of lightweight timber floor systems and are increasingly being used for intermediate-span timber floors in low-rise timber residences. The floor system is beneficial to access for service pipes and electrical cables and ensure quality control of wood and reach a large span. It provides more freedom of design and optimization for the timber floors. The timber floor systems consist of several parallel wood truss joists that support wood subflooring or sheathing. The web members and flange members of the joists are connected using metal plates. The sheathing panels are connected to the top flanges of the joists by fasteners.
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