Experimental study of moment sharing in multi-joist timber-concrete composite floors from zero load up to failure

Mudie, J.; Sebastian, Wendel; Norman, James; Bond, Ian P

doi:10.1016/j.conbuildmat.2019.07.137

Cited by 17 publications

(5 citation statements)

References 26 publications

(36 reference statements)

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“…Thus, it has been verified that the bending performance of TCC is highest when the connector insertion angle is 45°. Besides the frequently used screws, steel plates such as mesh plates (Mudie et al 2019) and hot-galvanized steel plates (Estévez-Cimadevila et al 2020) have been developed. Furthermore, Lukaszewska et al (2010) performed various composite fabrication processes, such as insertion of screws in a steel tube, use of ring-shaped nails in steel plates, and insertion of screws in the notch joint and the steel tube.…”

Section: Introductionmentioning

confidence: 99%

Bending performance of cross-laminated timber-concrete composite slabs according to the composite method

Baek

Song

et al. 2021

BioRes

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Bending strength tests were conducted of cross-laminated timber (CLT)-concrete composite slabs according to the shear connection method and carbon fiber reinforced plastic (CFRP) reinforcement. The bending strength of the composite slab that was shear-connected with an epoxy adhesive was 17% higher than that of a composite slab that was shear-connected with a self-tapping screw. In addition, the CLT-concrete slip of the former composite slab was also measured as 20% lower than the latter under the same load, showing a behavior close to that of a full composite. Both shear connection methods generated a failure in a low load-deformation section when there was a defect in the outermost tensile laminae of the CLT. In contrast, the CFRP reinforcement in the tension part of the composite slab suppressed the failure at the defect in the outermost tensile laminae. This reinforcement effect increased the reliability of the bending performance of the composite slab by preventing the failure of the composite slab while in a constant failure mode. Furthermore, the slip of the composite slab decreased 49% after its reinforcement with CFRP, showing a behavior close to that of a full composite.

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Section: Introductionmentioning

confidence: 99%

Bending performance of cross-laminated timber-concrete composite slabs according to the composite method

Baek

Song

et al. 2021

BioRes

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“…This kind of construction offers several advantages, as it is lighter compared with concrete beams and possesses higher timber durability than timber bridges because the timber joist does not experience any direct contact with rain and wind [6]. Previous research focused mainly on the evaluation of the system performance using different timber products as components, such as glulam [7] [8], solid timber [9], laminated veneer lumber (LVL) [10], [11] [12], cross-laminated timber (CLT) [13], and built-up joists. To connect the timber to the concrete part, the following are commonly used: adhesives [8], screws [7] [13] [14], punched metal plates [9], notched connections [10], steel mesh connections [11], or a combination of these connections (hybrid systems) [12].…”

Section: Introductionmentioning

confidence: 99%

“…Previous research focused mainly on the evaluation of the system performance using different timber products as components, such as glulam [7] [8], solid timber [9], laminated veneer lumber (LVL) [10], [11] [12], cross-laminated timber (CLT) [13], and built-up joists. To connect the timber to the concrete part, the following are commonly used: adhesives [8], screws [7] [13] [14], punched metal plates [9], notched connections [10], steel mesh connections [11], or a combination of these connections (hybrid systems) [12]. In about 45% of previous studies, metal dowel-type fastener connections were used [15].…”

Section: Introductionmentioning

confidence: 99%

Structural Performance of Prefabricated Timber-Concrete Composite Floor Constructed Using Open Web Truss Joist Made of LVL Paraserianthes Falctaria

Awaludin¹,

Wusqo²,

Setiawan³

et al. 2021

OJCE

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This paper investigates an open web truss joist (OWTJ) made of laminated veneer lumber (LVL) Paraserianthes falctaria as a prefabricated timber-concrete composite floor system. The four-point bending test showed that structural performances of the OWTJ, conventional composite floor (CCF), and prefabricated composite floor (PCF) were similar. Although composite action was not developed as no lateral deformation was observed at the shear connectors, installing a concrete slab above the OWTJ can slightly increase the ductility factor of the composite floor. Furthermore, a finite element model was developed, and the model proved to be suitable for simulating the structural performance of the composite floor.

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“…Furthermore, it improves the ease of bonding a CLT floor with pillars, walls, or beams in the field. Therefore, with regard to the CCC manufacture method, between pouring concrete over a CLT floor structure in the field (wet construction method) or pre-fabricating CCC in a factory, the former is predominant (Kanócz and Bajzecerová 2015;Bajzecerová 2017;Thilén 2017;Jiang and Crocetti 2019;Mudie et al 2019;Teguedy et al 2019;Fu et al 2020). When CCC is manufactured through the wet construction method, the CLT plays the subgrade role of concrete.…”

Section: Introductionmentioning

confidence: 99%

Variations of moisture content in manufacturing CLT-concrete composite slab using wet construction method

Song

Baek

Lee

et al. 2020

BioRes

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Construction of eco-friendly high-rise buildings using cross-laminated timber (CLT)-concrete composite (CCC) slabs is increasing. CLT and concrete, which are major component materials of the CCC slab, are significantly affected by moisture. In particular, the moisture content of concrete in the production process affects the quality of both materials. In this study, the effects of the wet construction method on CLT and concrete component materials are examined by monitoring the behavior of the CCC slab during curing time (28 d) and by evaluating the quality of the concrete and CLT after curing. When manufacturing the CCC using the wet construction method, moisture penetration from the concrete into the CLT during the curing time is suppressed by the shear bonding between the concrete and the CLT when an adhesive is used. This minimizes the effect of the moisture on both component materials, consequently yielding uniform compressive strength to the concrete after curing and preventing the deterioration of the CLT’s delamination performance. Therefore, the shear bonding method using an adhesive is expected to minimize the quality deterioration observed in concrete and CLT after curing.

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Experimental study of moment sharing in multi-joist timber-concrete composite floors from zero load up to failure

Cited by 17 publications

References 26 publications

Bending performance of cross-laminated timber-concrete composite slabs according to the composite method

Bending performance of cross-laminated timber-concrete composite slabs according to the composite method

Structural Performance of Prefabricated Timber-Concrete Composite Floor Constructed Using Open Web Truss Joist Made of LVL Paraserianthes Falctaria

Variations of moisture content in manufacturing CLT-concrete composite slab using wet construction method

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