Assessment of butt joint positions on dry board in PSSDB wall panels with window opening / Prof. Madya Ir. Hjh. Siti Hawa Hamzah, Yong Chua Bon and Goh Ching Hua
Profiled steel sheet dry board or PSSDB system is an innovative composite construction system with application as an alternative to flooring, wall unit and roofing system. In this study, load-bearing walls with window opening were constructed using PSSDB. The investigation was carried out experiment...
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| Main Authors: | , , |
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| Format: | Research Reports |
| Language: | English |
| Published: |
2005
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| Subjects: | |
| Online Access: | http://ir.uitm.edu.my/id/eprint/48886/1/48886.pdf http://ir.uitm.edu.my/id/eprint/48886/ |
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| Summary: | Profiled steel sheet dry board or PSSDB system is an innovative composite construction system with application as an alternative to flooring, wall unit and roofing system. In this study, load-bearing walls with window opening were constructed using PSSDB. The investigation was carried out experimentally to determine the structural behaviour and to see the arrangement effect (vertical and horizontal) of butt joint in the dry boards. The PSSDB load bearing wall system, formed as double skinned structural element, consists of two dry boards (Cemboards) attached to profiled steel sheet (Bondek II), the core of panel, using self-tapping self-drilling screws. Several aspects such as literature review, testing method and analysis of results were included in this research. The samples tested were three (3) numbers of PSSDB walls with window opening and vertical butt joint (VBJ) in the dry boards, and three (3) numbers of PSSDB walls with window opening but with horizontal butt joint (HBJ) in the dry boards. The size of each sample is 1000 mm high x 1320 mm wide x 78 mm thick with window opening of size 400 mm x 400 mm x 78 mm. The connectors were fixed at a 100 mm center to center in the longitudinal axis. The samples were subjected to axial compressive load and comparisons were made between the two sets of samples. The average value of the ultimate load capacity for PSSDB wall with vertical butt joint was found to be 212.1 kN, while that for the samples of PSSDB wall with horizontal butt joint was 201.8 kN. The maximum lateral deflection values for both types of PSSDB walls were 10.0 mm and 9.3 mm respectively. Similarly, the vertical displacements are 9.2 mm and 11.2 mm respectively. The Young's modulus values obtained from bending stress-principal strain analysis for PSSDB with VBJ were 1750 GN/m2 and 40 GN/m2 for PSS and cemboard respectively, whilst for PSSDB with HBJ, the values are 700 GN/m2 and 9 GN/m2 respectively. Significant effect of vertical arrangement of butt joint in dry board was seen in the reduced number of cracks by about 10% in comparison to that with horizontal butt joint. |
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