Mechanical behaviour of composite sandwich panels with foamed concrete core reinforced with natural fibre in four-point bending

J. F. Castillo-Lara; E. A. Flores-Johnson; A. Valadez-Gonzalez; P. J. Herrera-Franco; J. G. Carrillo; P. I. Gonzalez-Chi; E. Agaliotis; Q. M. Li

doi:10.1016/j.tws.2021.108457

Mechanical behaviour of composite sandwich panels with foamed concrete core reinforced with natural fibre in four-point bending

J. F. Castillo-Lara, E. A. Flores-Johnson^*, A. Valadez-Gonzalez, P. J. Herrera-Franco, J. G. Carrillo, P. I. Gonzalez-Chi, E. Agaliotis, Q. M. Li

^*Corresponding author for this work

Mechanical and Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

The four-point bending behaviour of composite sandwich panels made of corrugated steel faces and foamed concrete (FC) cores with a density of 700 kg/m³ is reported. Plain FC (PFC) core and fibre-reinforced FC (FRFC) core, reinforced with an alkaline-treated natural fibre (henequen fibre) at a volume fraction of 1%, were used. FRFC core reinforced with polypropylene fibre was also used as a reference. The results showed that panels with FRFC cores exhibited greater initial failure load, maximum load and energy absorption when compared to the PFC cored panels, which was associated with the enhancements of ductility and toughness of the FRFC cores produced by the fibres. Several energy absorbing mechanisms were observed in the panels, including the development of major tension and shear cracks in the FC core, face wrinkling and face–core debonding. The finite element simulations showed that the face–core bonding plays a crucial role in the structural performance of the panels. The findings presented herein encourage further investigations to assess the use of sandwich panels with natural-fibre reinforced cores for construction applications.

Original language	English
Article number	108457
Journal	Thin-Walled Structures
Volume	169
DOIs	https://doi.org/10.1016/j.tws.2021.108457
Publication status	Published - Dec 2021

Keywords

Composite sandwich panel
Finite element simulation
Foamed concrete
Four-point bending
Natural fibre
Polypropylene fibre

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10.1016/j.tws.2021.108457

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Castillo-Lara, J. F., Flores-Johnson, E. A., Valadez-Gonzalez, A., Herrera-Franco, P. J., Carrillo, J. G., Gonzalez-Chi, P. I., Agaliotis, E., & Li, Q. M. (2021). Mechanical behaviour of composite sandwich panels with foamed concrete core reinforced with natural fibre in four-point bending. Thin-Walled Structures, 169, Article 108457. https://doi.org/10.1016/j.tws.2021.108457

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title = "Mechanical behaviour of composite sandwich panels with foamed concrete core reinforced with natural fibre in four-point bending",

abstract = "The four-point bending behaviour of composite sandwich panels made of corrugated steel faces and foamed concrete (FC) cores with a density of 700 kg/m3 is reported. Plain FC (PFC) core and fibre-reinforced FC (FRFC) core, reinforced with an alkaline-treated natural fibre (henequen fibre) at a volume fraction of 1%, were used. FRFC core reinforced with polypropylene fibre was also used as a reference. The results showed that panels with FRFC cores exhibited greater initial failure load, maximum load and energy absorption when compared to the PFC cored panels, which was associated with the enhancements of ductility and toughness of the FRFC cores produced by the fibres. Several energy absorbing mechanisms were observed in the panels, including the development of major tension and shear cracks in the FC core, face wrinkling and face–core debonding. The finite element simulations showed that the face–core bonding plays a crucial role in the structural performance of the panels. The findings presented herein encourage further investigations to assess the use of sandwich panels with natural-fibre reinforced cores for construction applications.",

keywords = "Composite sandwich panel, Finite element simulation, Foamed concrete, Four-point bending, Natural fibre, Polypropylene fibre",

author = "Castillo-Lara, {J. F.} and Flores-Johnson, {E. A.} and A. Valadez-Gonzalez and Herrera-Franco, {P. J.} and Carrillo, {J. G.} and Gonzalez-Chi, {P. I.} and E. Agaliotis and Li, {Q. M.}",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd",

year = "2021",

month = dec,

doi = "10.1016/j.tws.2021.108457",

language = "English",

volume = "169",

journal = "Thin-Walled Structures",

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AU - Castillo-Lara, J. F.

AU - Flores-Johnson, E. A.

AU - Valadez-Gonzalez, A.

AU - Herrera-Franco, P. J.

AU - Carrillo, J. G.

AU - Gonzalez-Chi, P. I.

AU - Agaliotis, E.

AU - Li, Q. M.

PY - 2021/12

Y1 - 2021/12

N2 - The four-point bending behaviour of composite sandwich panels made of corrugated steel faces and foamed concrete (FC) cores with a density of 700 kg/m3 is reported. Plain FC (PFC) core and fibre-reinforced FC (FRFC) core, reinforced with an alkaline-treated natural fibre (henequen fibre) at a volume fraction of 1%, were used. FRFC core reinforced with polypropylene fibre was also used as a reference. The results showed that panels with FRFC cores exhibited greater initial failure load, maximum load and energy absorption when compared to the PFC cored panels, which was associated with the enhancements of ductility and toughness of the FRFC cores produced by the fibres. Several energy absorbing mechanisms were observed in the panels, including the development of major tension and shear cracks in the FC core, face wrinkling and face–core debonding. The finite element simulations showed that the face–core bonding plays a crucial role in the structural performance of the panels. The findings presented herein encourage further investigations to assess the use of sandwich panels with natural-fibre reinforced cores for construction applications.

AB - The four-point bending behaviour of composite sandwich panels made of corrugated steel faces and foamed concrete (FC) cores with a density of 700 kg/m3 is reported. Plain FC (PFC) core and fibre-reinforced FC (FRFC) core, reinforced with an alkaline-treated natural fibre (henequen fibre) at a volume fraction of 1%, were used. FRFC core reinforced with polypropylene fibre was also used as a reference. The results showed that panels with FRFC cores exhibited greater initial failure load, maximum load and energy absorption when compared to the PFC cored panels, which was associated with the enhancements of ductility and toughness of the FRFC cores produced by the fibres. Several energy absorbing mechanisms were observed in the panels, including the development of major tension and shear cracks in the FC core, face wrinkling and face–core debonding. The finite element simulations showed that the face–core bonding plays a crucial role in the structural performance of the panels. The findings presented herein encourage further investigations to assess the use of sandwich panels with natural-fibre reinforced cores for construction applications.

KW - Composite sandwich panel

KW - Finite element simulation

KW - Foamed concrete

KW - Four-point bending

KW - Natural fibre

KW - Polypropylene fibre

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Mechanical behaviour of composite sandwich panels with foamed concrete core reinforced with natural fibre in four-point bending

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