Optimization of mechanical properties in foamcrete reinforced with raw oil palm empty fruit bunch (EFB) fiber

Musa, M.; Mydin, Azree Othuman; Ghani, Abdul Naser Abdul

doi:10.1051/matecconf/201825005004

Cited by 2 publications

(2 citation statements)

References 11 publications

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“…Similarly, the 56 th day compressive strength of 1100kg/m 3 and 1600kg/m 3 LFC specimens was found in a range of +38.42% to +94.65% greater than unconfined specimens. [41]. The 56 th day flexural strength of LFC specimens reinforced with 1L-FGM,2L-FGM and 3L-FGM at 600kg/m 3 was +103.70%, +151.85% and +385.18% respectively greater than control specimens.…”

Section: Compressive Strengthmentioning

confidence: 83%

Influence of Bi-directional Fibreglass Grid Reinforcement on Drying Shrinkage and Mechanical Properties of Lightweight Foamed Concrete

Wani

2021

IJE

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This experimental work is about the study of drying shrinkage followed by strength testing of lightweight foamed concrete (LFC) specimens with the confinement of woven fiberglass mesh (FGM) at three different densities. The LFC specimens were wrapped with 1-layer to 3-layer(s) of FGM for cube and cylinder specimens and in beam specimens, it was centrally spread along the longitudinal axis. The specimens were cured under air storage conditions and the drying shrinkage test was carried following ASTM C157/C 157M specification on three prism-shaped '75mmx75mmx285mm' specimens. NORAITE PA-1 foaming agent was used to produce the desired density of LFC. All of 324 specimens were cast and tested for mechanical properties at 7days, 28days and 56days respectively. In compression strength test, cube dimensions of 100mm side following BS EN 12390-3:2009 was adopted. The flexural strength was conducted on '100mmx100mmx500mm' beam specimens following BS ISO 1920-8:2009. The specimens '100mm in diameter and 200mm in height' were tested for split tensile strength considering ASTM C496/ C496M-04e1 specifications. The results showed that confinement with 160g/m 2 (GSM) of FGM significantly restricts the drying shrinkage of LFC specimens compared to control specimens and it decreased with the increases in layer(s) from l-layer to 3-layer(s) and density of LFC. The testing of the mechanical properties of LFC showed a direct proportionality between strength and LFC density and confinement layer(s). The failure pattern observed in all specimens was either by debonding or splitting of fibers of FGM. Thus, LFC at 1600kg/m 3 density confined/reinforced with 3layers of FGM conquers the good performance in drying shrinkage and strength properties while the poor performance was shown by the unconfined LFC at 600kg/m 3 density.

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Section: Compressive Strengthmentioning

confidence: 83%

Influence of Bi-directional Fibreglass Grid Reinforcement on Drying Shrinkage and Mechanical Properties of Lightweight Foamed Concrete

Wani

2021

IJE

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“…Strength is a function of mortar tensile strength and increases as the confining layer count rises. Confining LFC using FM offers a notable increase in deformability and strength characteristics [28]. More layers increase mortar strength, affecting failure characteristics concerning debonding or fiber fracture.…”

Section: Compressive Strengthmentioning

confidence: 99%

Innovative Application of Interwoven Fiberglass Mesh to Strengthen Lightweight Foamed Concrete

Pirah

Mydin

Nawi

et al. 2022

ARASET

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Optimization of mechanical properties in foamcrete reinforced with raw oil palm empty fruit bunch (EFB) fiber

Cited by 2 publications

References 11 publications

Influence of Bi-directional Fibreglass Grid Reinforcement on Drying Shrinkage and Mechanical Properties of Lightweight Foamed Concrete

Influence of Bi-directional Fibreglass Grid Reinforcement on Drying Shrinkage and Mechanical Properties of Lightweight Foamed Concrete

Innovative Application of Interwoven Fiberglass Mesh to Strengthen Lightweight Foamed Concrete

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