Hasan Biricik scite author profile

The structural characteristics of cement mortars, impregnated with nano silica (NS), silica fume (SF) and fly ash (FA), were comparatively studied using Fourier transform infrared spectrometer (FTIR), thermogravimeter-differential thermogravimeter (TG-DTG) and scanning electron microscope (SEM). The mechanical strengths of the specimens were determined at early (7th day) and standard (28th day) curing ages. The compressive strengths and flexural strengths developed in the mortar specimens containing NS particles were found considerably higher than those of the corresponding specimens of SF and FA over and above the control at both ages. FTIR, TG-DTG and SEM analyses results were consistent with the remarkable increase in the mechanical strength of the mortars with NS. These increases in the strengths of the mortars with NS are attributable to the nano sized particles and extensive surface area of NS. The nano sized particles, as nucleating agents, promoted the hydration of C 3 S and C 2 S and the formation of C-S-H phase. Plenty of active sites on the surface of NS particles induced their pozzolanic reactivity and the extent of bond formation between NS particles and free CH.

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Study of pozzolanic properties of wheat straw ash

Biricik¹,

Aköz²,

Berktay³

et al. 1999

Cement and Concrete Research

131

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Influence of raw rice husk addition on structure and properties of concrete

Yüzer

Çınar

Aköz

et al. 2013

Construction and Building Materials

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Resistance to magnesium sulfate and sodium sulfate attack of mortars containing wheat straw ash

Biricik

Aköz

Türker

et al. 2000

Cement and Concrete Research

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Activation of slag through a combination of NaOH/NaS alkali for transforming it into geopolymer slag binder mortar – assessment the effects of two different Blaine fines and three different curing conditions

Biricik

Kırgız²,

Galdino

et al. 2021

Journal of Materials Research and Technology

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Assessment of Reusing Ferrochrome Slag Wastes in Mortar as SCMs

Işil

Biricik

2020

J. Wuhan Univ. Technol.-Mat. Sci. Edit.

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Pozzolanic activity of central Anatolian volcanic tuff and its usability as admixture in mortar

Biricik

Karapinar

2020

Advances in Cement Research

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The mechanical and physical properties of volcanic tuffs from central Anatolian province were investigated for use as admixtures in pozzolanic cement. Five different cement mortar specimens were prepared by replacing cement with volcanic tuff in ratios of 0, 15, 25, 35 and 45% by mass. The flexural and compressive strengths of the specimens were determined at the ages of 7, 28 and 56 d. The effects of the tuff replacement ratio on workability, setting time and volume expansion were also examined. Based on the results, it was concluded that central Anatolian volcanic tuff has pozzolanic activity and is suitable for use as an alternative adherent material in the cement industry.

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Reply to the discussion by J. Bensted and J. Munn of the paper “Study of pozzolanic properties of wheat straw ash”

Biricik

2000

Cement and Concrete Research

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Hasan Biricik

Comparative study of the characteristics of nano silica - , silica fume - and fly ash - incorporated cement mortars

Study of pozzolanic properties of wheat straw ash

Influence of raw rice husk addition on structure and properties of concrete

Resistance to magnesium sulfate and sodium sulfate attack of mortars containing wheat straw ash

Activation of slag through a combination of NaOH/NaS alkali for transforming it into geopolymer slag binder mortar – assessment the effects of two different Blaine fines and three different curing conditions

Assessment of Reusing Ferrochrome Slag Wastes in Mortar as SCMs

Pozzolanic activity of central Anatolian volcanic tuff and its usability as admixture in mortar

Reply to the discussion by J. Bensted and J. Munn of the paper “Study of pozzolanic properties of wheat straw ash”

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