Fracture properties of normal and lightweight high-strength concrete

Tang, W. C.; Lo, T. Y.; Chan, W. K.

Title: Fracture properties of normal and lightweight high-strength concrete
Creator: Tang, W. C.; Lo, T. Y.; Chan, W. K.
Relation: Magazine of Concrete Research Vol. 60, Issue 4, p. 237-244
Publisher Link: http://dx.doi.org/10.1680/macr.2008.60.4.237
Publisher: ICE Publishing
Resource Type: journal article
Date: 2008
Description: This paper presents the results of a comparative study on the fracture properties of high-strength concrete (HSC) with normal aggregate (crushed limestone) and lightweight aggregate (sintered fly ash). The compressive strengths of the normal and lightweight HSC were about 115 and 90 MPa respectively. The fracture properties, namely the critical stress intensity factor (K^S_IC) and critical crack tip opening displacement (CTOD_C) for the two-parameter model, and the fracture energy (G_F) for the fictitious crack model were examined. A three-point bending test on notched beams was carried out on specimens of varying sizes to examine the size effect on the measured properties and flexural behaviour. The experimental findings indicated that the K^S_ICF values of normal aggregate HSC were more size-sensitive than that of lightweight HSC while the CTOD_C of both types of HSC seemed to be size-independent. Compared with the normal aggregate HSC, the lightweight HSC had a considerably lower K^S_IC but had a similar G_F and more ductile flexural behaviour.
Subject: high-strength concrete; fracture properties; lightweight aggregates
Identifier: http://hdl.handle.net/1959.13/1052183
Identifier: uon:15385
Identifier: ISSN: 0024-9831
Language: eng
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