Effect of fly ash and slag on the fracture characteristics of high performance concrete

Title: Effect of fly ash and slag on the fracture characteristics of high performance concrete
Author(s): B. H. Bharatkumar, B. K. Raghuprasad, D. S. Ramachandramurthy, R. Narayanan, S. Gopalakrishnan
Paper category : journal
Serial title: Materials and Structures
Abreviated Serial title: Mater. Struct.
ISSN: 1359-5997
Publisher: RILEM Publications SARL
Volume: 38
Issue: 275
Issue date: 2005-01-01
Publication year: 2005
Pages: 63 - 72
Total Pages: 10
Nb references: 33
Language: English

Abstract: The premature deterioration of concrete structures in aggressive environments has necessitated the development of high performance concrete (HPC).
The major difference between conventional concrete and HPC is essentially the use of chemical and mineral admixtures.
The improved pore structure of HPC achieved by the use of chemical and mineral admixtures causes densification of paste-aggregate transition zone, which in turn affects the fracture characteristics.
Hence, studies were taken up to investigate the effect of fly ash and slag on the fracture characteristics of HPC.
Beam specimens (geometrically similar and single size variable notch) with locally available fly ash (25%) and slag (50%) as cement replacement materials were prepared and tested in a servo-controlled Universal Testing Machine (UTM) under displacement control.
From the value of the peak load for each beam, various fracture parameters were calculated.
The results show that there is a reduction in the fracture energy due to addition of fly ash or slag, which can be attributed to the presence of unhydrated particles of size larger than that of normal flaws in concrete.
Also due to densification, the post peak behaviour is steeper for the fly ash or slag based HPC mixes.
The results of the investigation are presented in this paper.

Online publication: 2004-12-23
Classification: Scientific Reports
Publication type : full_text
Public price (Euros): 0.00
doi: 10.1617/14107