Experimental Tests on Bending Behavior of Profiled Steel Sheeting Dry Board Composite Floor with Geopolymer Concrete Infill

Jaffar, Mohd Isa; Badaruzzaman, Wan Hamidon Wan; Baharom, Shahrizan

doi:10.1590/1679-78252028

Cited by 9 publications

(6 citation statements)

References 23 publications

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“…The curve relationships observed in all the panel specimens tested were almost linear initially and subsequently became non-linear as a load was added continuously. The non-linear characteristics observed in all the load-deflection plots are due to the load buckling of the under compression as described in section 3.2 [19]. It can be seen that the panel specimen without foamed concrete developed local buckling only at the mid-span position.…”

Section: Failure Modementioning

confidence: 69%

“…The result shows that the mid-span deflection of the panel has reduced to 52% and 107% increase in rigidity compared with those of the control (without infill). It also illustrates that the rigidity of PSSDB with a halfsize dry board filled with geopolymer concrete increases by 43% relative to that of the PSSDB with full-size filled normal concrete [13]. Steel plates can be considered an economic solution to enhance the structural behavior of the PSSDB system.…”

Section: Fig 1 -Typical Pssdb Systemmentioning

confidence: 96%

“…Studies on the behavior of the PSSDB system by using Peva 50 as a profiled steel sheet and Primaflex as a dry board has been reported in earlier publications [10][11][12][13][14][15]. Jaffar et al [10] were investigated the connection stiffness through the push-out test and deflection in the mid-span through the bending test.…”

Section: Fig 1 -Typical Pssdb Systemmentioning

confidence: 99%

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Structural Behavior of Lightweight Composite Slab System

Sutiman¹,

Majid²,

Jaini³

et al. 2021

IJIE

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This study investigate the structural behavior of lightweight composite slab system that consist of profiled steel sheet (PSS) attached to dry board (DB) using mechanical screws and with or without infill materials. A total four full-scale panel specimen were tested under four-point bending when subjected under static loading. Result of the four-point test shows that increasing the thickness of profiles steel sheet gives major effect to the deflection and ultimate load. The deflection and ultimate load of 1.0mm thick panel specimen is 16.45% and 34.45% respectively. Therefore, increased the thickness of profiled steel sheet can enhance the stiffness and strength of the lightweight composite slab systems. It also found that the infill material used in these experimental gives minor effect to deflection and ultimate load. The deflection and ultimate load of panel specimen with foamed concrete is 21.18% and 16.66% respectively. Thus, foamed concrete can be used only for non-structural purposed only such as sound proofing and fire resistance.

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Section: Failure Modementioning

confidence: 69%

Section: Fig 1 -Typical Pssdb Systemmentioning

confidence: 96%

Section: Fig 1 -Typical Pssdb Systemmentioning

confidence: 99%

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Structural Behavior of Lightweight Composite Slab System

Sutiman¹,

Majid²,

Jaini³

et al. 2021

IJIE

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“…In addition, three steel coupons were prepared, using steel PSS and C-Purlins, and tested in accordance with ASTM E8/E8M-2009. This study used the same Primaflex DB sheet that was used in [ 7 , 9 , 10 ]. Table 3 presents the properties of these materials (C-Purlins, PSS, DB, and concrete mixtures).…”

Section: Experimental Workmentioning

confidence: 99%

“…Later, several researchers tested the PSSDB system adopted in the floors, walls, and roofs of residential and commercial buildings [ 3 , 4 , 5 , 6 ]. The influence of filling a one-way PSSDB slab with geopolymer and normal concrete was experimentally investigated [ 7 , 8 ]. In addition, Al-Shaikhli et al [ 9 , 10 ] studied the bending behavior of concrete-filled PSSDB slabs using the two-way slab concept.…”

Section: Introductionmentioning

confidence: 99%

Prediction of the Bending Strength of a Composite Steel Beam–Slab Member Filled with Recycled Concrete

et al. 2023

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This study investigated the structural behavior of a beam–slab member fabricated using a steel C-Purlins beam carrying a profile steel sheet slab covered by a dry board sheet filled with recycled aggregate concrete, called a CBPDS member. This concept was developed to reduce the cost and self-weight of the composite beam–slab system; it replaces the hot-rolled steel I-beam with a steel C-Purlins section, which is easier to fabricate and weighs less. For this purpose, six full-scale CBPDS specimens were tested under four-point static bending. This study investigated the effect of using double C-Purlins beams face-to-face as connected or separated sections and the effect of using concrete material that contains different recycled aggregates to replace raw aggregates. Test results confirmed that using double C-Purlins beams with a face-to-face configuration achieved better concrete confinement behavior than a separate configuration did; specifically, a higher bending capacity and ductility index by about +10.7% and +15.7%, respectively. Generally, the overall bending behavior of the tested specimens was not significantly affected when the infill concrete’s raw aggregates were replaced with 50% and 100% recycled aggregates; however, their bending capacities were reduced, at −8.0% and −11.6%, respectively, compared to the control specimen (0% recycled aggregates). Furthermore, a new theoretical model developed during this study to predict the nominal bending strength of the suggested CBPDS member showed acceptable mean value (0.970) and standard deviation (3.6%) compared with the corresponding test results.

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