Effect of Changing Properties of Wythes in Precast Structural Sandwich Panels

Mohamed Abo El-Naga Kandil,Ahmed H Abdelraheem,Ahmed M Tahwia,Mohamed Mahdy

doi:10.28991/cej-2020-03091581

Mohamed Abo El-Naga Kandil, Ahmed H Abdelraheem + Show 2 more

Open Access

https://doi.org/10.28991/cej-2020-03091581

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Journal: Civil Engineering Journal	Publication Date: Sep 1, 2020
Citations: 1	License type: CC BY 4.0

Affiliation: Mansoura University

Abstract

This study investigates the effects of changing in the properties of face and core wythes in structural sandwich panels (with dimensions of 500 500 mm and 120 mm total height). Concrete face wythes of three grades (80, 70, 37) MPa, thicknesses of (25, 35, and 45) mm, and three types of core materials (high density foam, polyethylene foam, and palm bark) were used in the production of panels. Steel shear connectors were installed in the panels with angle of 45º. Three-point bending load test was carried out on all panels and results were compared with both of the theoretical extremes capacities of non- composite and fully-composite states and ANSYS software results. The degree of composite action (%) and the (strength/weight) ratio were the main parameters that judged the specimens. It was found that upgrading concrete increased overall strength of slabs especially in high strength concrete (80 MPa), however the use of lightweight concrete (70 MPa) caused high (strength/weight) ratio due to very lightweight. Results revealed that decreasing thickness of concrete face wythes had a positive effect on strength/weight ratio (although the ultimate loads decreased) that enhanced the performance of panels as lightweight structural panels. The optimum face wythe thickness is that of 2.5 cm and has high (strength/weight) ratio. It was noticed that adding polyethylene foam as a core material results in positive effect and high (strength/weight) ratio. Results revealed that high strength concrete (80 MPa) and light-weight concrete (37 MPa) are very successful in the production face wythes of precast light-weight sandwich panels that can obtain high (strength/weight) ratio and high percent of composite action.

Highlights

The common typical cross section of structural precast sandwich panel (SPSP) consists of two face wythes of concrete separated by core wythe that almost consists of heat insulation material [1]
While comparing specimens 01 and 02, it was noticed that the ultimate strength decreased with change of High strength concert (HSC) to LHSC by 19.3%, the degree of composite action decreased by 19.23%, and strength\weight ratio decreased by 12.8%
When comparing specimens 01 and 05, the ultimate strength decreased with the change of HSC to light weight concrete (LWC) by 32.12%, the degree of composite action decreased by 30.74%, and strength\weight ratio decreased by 6.8%

Summary

Introduction

The common typical cross section of structural precast sandwich panel (SPSP) consists of two face wythes of concrete separated by core wythe that almost consists of heat insulation material [1]. Various parameters control the structural behaviour and the overall ultimate capacity of structural precast sandwich panels such as the grade of concrete in concrete face wythes, thickness of concrete face wythes, distribution of shear connectors, rigidity of core material, and bond between core-concrete interfaces [1, 2]. The panels were classified as light weighted high-strength structural sandwich panel [2]. The relative light weight comparing to high strength is playing the main role which controls the performance of SPSP [2, 4]

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Conclusion