Fracture Properties of Concrete Containing Expanded Polystyrene Aggregate Replacement

Matthew Trussoni; Carol D. Hays; Ronald F. Zollo

doi:10.14359/51685906

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International Concrete Abstracts Portal

Title: Fracture Properties of Concrete Containing Expanded Polystyrene Aggregate Replacement

Author(s): Matthew Trussoni, Carol D. Hays, and Ronald F. Zollo

Publication: Materials Journal

Volume: 110

Issue: 5

Appears on pages(s): 549-558

Keywords: expanded polystyrene (EPS) concrete; fracture properties; threepoint- bend test; wedge-splitting test

DOI: 10.14359/51685906

Date: 9/1/2013

Abstract:
Research has shown that expanded polystyrene (EPS) aggregate replacement changes the failure mode of concrete in compression by exhibiting a more ductile dissipation of load during failure. Fracture mechanics are applied in this report to study the behavior of concrete containing EPS aggregate that replaces a volume portion of the normalweight fine aggregate. The fracture energy, critical stress intensity factor, and characteristic length of EPS concrete and normalweight concrete (NWC) is experimentally determined. The two types of tests used to determine these properties are the three-point-bend test and a wedge-splitting test. The conclusions demonstrate that EPS aggregate replacement increases fracture surface areas and the size of the fracture process zone, thus creating a more dispersed cracking pattern. The resulting failure mode allows the concrete to absorb more energy and maintain load after reaching peak load.Research has shown that expanded polystyrene (EPS) aggregate replacement changes the failure mode of concrete in compression by exhibiting a more ductile dissipation of load during failure. Fracture mechanics are applied in this report to study the behavior of concrete containing EPS aggregate that replaces a volume portion of the normalweight fine aggregate. The fracture energy, critical stress intensity factor, and characteristic length of EPS concrete and normalweight concrete (NWC) is experimentally determined. The two types of tests used to determine these properties are the three-point-bend test and a wedge-splitting test. The conclusions demonstrate that EPS aggregate replacement increases fracture surface areas and the size of the fracture process zone, thus creating a more dispersed cracking pattern. The resulting failure mode allows the concrete to absorb more energy and maintain load after reaching peak load.

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