ABSTRACT
Evaluating the effects of using new water sources on the mechanical properties of concrete is an important issue that should be considered in practical projects such as dam construction and tunnelling. The fracture toughness as one of the mechanical properties describes the resistance of a material against the crack propagation and the effect of a new water source should be assessed on this property of concrete. This paper aims to investigate the use of domestic treated wastewater in making concrete. For this purpose, several single edges notched beam (SENB) are prepared using 5 different combinations of drinking water and domestic treated wastewater. The experimental results show that the values of fracture toughness obtained from concrete samples with wastewater have discrepancies between 2 to 6% in comparison with conventional concrete. Therefore, it is concluded that applying domestic treated wastewater as both curing and mixing water has no serious negative effect on fracture toughness. The slump of concrete samples using treated wastewater increased slightly related to using drinking water and setting time increased. Scanning electron microscope (SEM) images of the samples using treated wastewater indicated that existing ettringite, white and needle-like crystals, connected two sides of the cracks.
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No potential conflict of interest was reported by the authors.
Additional information
Notes on contributors
Fahimeh Sadat Peighambarzadeh
Fahimeh Sadat Peighambarzadeh was a MSc student in environmental engineering in civil engineering department at Kharazmi University, Tehran, Iran.
Gholamreza Asadollahfardi
Gholamreza Asadollahfardi is a professor in civil engineering at Kharazmi University and graduated from London University, PhD in environmental engineering.
Javad Akbardoost
Javad Akbardoost is an assistant professor in mechanical engineering at Kharasmi University, Tehran, Iran. He hold a PhD degree in mechanical engineering from Iran Science and Technology University.