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Mahdi Nematzadeh

Mahdi Nematzadeh

Academic rank: Professor
ORCID: 0000-0002-8065-0542
Education: PhD.
ScopusId: 36198613700
HIndex:
Faculty: Faculty of Technology and Engineering
Address:
Phone: 011-35302903

Research

Title
Optimizing compressive behavior of concrete containing fine recycled refractory brick aggregate together with calcium aluminate cement and polyvinyl alcohol fibers exposed to acidic environment
Type
JournalPaper
Keywords
Corrosion; Polyvinyl alcohol; Fibrous concrete; Optimum solution; Ultrasonic pulse velocity; Calcium aluminate cement; Crushed refractory brick
Year
2018
Journal CONSTRUCTION AND BUILDING MATERIALS
DOI
Researchers Mahdi Nematzadeh ، JAVAD DASHTI ، Behnoud Ganjavi

Abstract

Earthquake-induced structural wastes and other factors causing destruction, on one hand, and issues regarding the damaging effects of acidic environments, on the other, comprise some of the most challenging concerns of humanity, thus eliminating these challenges is one of the major goals in today’s construction industry. To face this challenge, this research set out to investigate the compressive behavior of concrete containing fine recycled refractory brick aggregate together with calcium aluminate cement (CAC) and polyvinyl alcohol (PVA) fibers under an acidic environment. In order to achieve this objective, 96 fine aggregate concrete specimens were exposed to 5% sulfuric acid attack for periods of 0, 7, 21, and 63 days, then they were subjected to various experiments. First, to determine the extent of the specimens’ corrosion, the weight variations test was conducted, then, the ultrasonic pulse velocity (UPV) test, a non-destructive concrete test to obtain the level of porosity and density, was carried out, and at the end of the experimental phase, the specimens were subjected to compressive testing after being visually inspected to examine the corrosion level. Finally, using response surface method (RSM), an optimum solution for the design parameters was presented by maximizing the compressive strength of fibrous concrete as well as making the concrete mix cost-effective. Generally, the results indicate that the specimens containing calcium aluminate cement together with PVA fibers demonstrate proper mechanical properties in terms of corrosion control against acid attack, while the specimens containing fine refractory brick aggregate showed a rather unsatisfactory performance in this regard.