        TY  - JOUR
T1  - Yüksek Fırın Cüruf Katkılı Çimento Pastalarının Elektriksel Özdirençlerinin Araştırılması
TT  - Investigation of Electrical Resistivity of Cement Paste Blended with Blast Furnace Slag
AU  - Hocaoğlu, İsmail
AU  - Topçu, İlker Bekir
AU  - Uygunoğlu, Tayfun
PY  - 2018
DA  - June
DO  - 10.2339/politeknik.403970
JF  - Politeknik Dergisi
PB  - Gazi Üniversitesi
WT  - DergiPark
SN  - 2147-9429
SP  - 257
EP  - 264
VL  - 21
IS  - 2
LA  - tr
AB  - Buçalışmada çimento pastalarında yüksek fırın cürufu içeriği ve su/çimentooranının elektriksel öz direnç üzerindeki etkisi araştırılmıştır. Farklısu/çimento oranlarında ve farklı oranda bağlayıcı içeren karışımlarhazırlanmıştır.&amp;nbsp; Karışımlarda çimentoyerine ağırlıkça %0, %10, %20, %30 oranlarında yüksek fırın cürufu konulmuştur.Taze haldeki çimento pastalarına kalıp içerisinde elektrik akımı uygulanmış,ölçümler oda sıcaklığında yapılmıştır. Elektrik akımı uygulanmış ve elektrikakımı uygulanmamış numunelerdeki hidratasyon zamanı ile elektriksel öz dirençarasındaki farklar araştırılmıştır. Sonuç olarak, çimento pastalarına yüksekoranda yüksek fırın cürufu konulması ve elektrik akımı uygulanması ile prizsüresi kısalmaktadır.&amp;nbsp;
KW  - Beton bileşen
KW  - çimento pastası
KW  - elektriksel öz direnç
KW  - yüksek fırın cürufu
N2  - In this study, the effects of blast furnace slag contentand water/cement ratio at cement pastes on the electrical resistivity wereinvestigated. Admixtures having different water/cement ratios and admixtureshaving binder at different dosage levels were prepared. The blast furnace slag wasused in the admixtures by replacing the cement in ratio of 0%, 10%, 20% and 30%by weight. Electrical current was applied to the fresh cement pastes in themolds. The measurements were done at room temperature. The differences between electricalresistivity and hydration time with and without electric current application onthe specimens were investigated.&amp;nbsp; As aresult, adding blast furnace slag at a high proportion and application ofelectrical current to the cement pastes shorten the setting time.
CR  - [1]  Öner A., Yıldırım T. “Öğütülmüş yüksek fırın  cürufu içeren ve içermeyen betonlarda kırmataş kumu içeriğinin beton özeliklerine etkisi”,  Deprem Sempozyumu Kocaeli, Kocaeli, (2005).
CR  - [2]  Tokyay M., Erdoğdu K., “Cüruflar ve curuflu çimentolar”, Türkiye Çimento Müstahsilleri Birliği, Ankara,  (2002).
CR  - [3]   ACI 233.R-95, “Ground granulated blast-furnace slag as a cementitious constituent in concrete reported by ACI committe 233, American Concrete Institude, Detroit, Michigan.
CR  - [4]  Morsy M.S., “Effect of temperature on electrical conductivity of blended cement pastes”, Cem Concr Res, 29: 603-606, (1999).
[5]   Yio M.H.N., Phelan J.C., Wong H.S., Buenfeld N.R., “Determining the slag fraction,water/binder ratio and degree of hydration in hardened cement pastes”, Cement and Concrete Research, 56: 171–181, (2014).
CR  - [6]  Backe K.R., Lile O.B. Lyomov,S.K., “Characterizing      curing cement slurries by electrical conductivity”, SPE Drilling &amp; Completion, 201-207, (2001).
CR  - [7]  Whittington H.W., McCart J., Forde M.C., “The conduction of electricity through concrete”, Mag Concr Res, 33: 48-60, (1981).
CR  - [8]  Xiao L., Li Z., Wei X., “Selection of superplasticizer in concrete mix design by measuring the early electrical resistivities of pastes”, Cem Concr Comp, 29: 350-356, (2007).
CR  - [9]  Schwarz N., DuBois M., Neithalath N., “Electrical conductivity based characterization of plain and coarse glass powder modified cement pastes”, Cem Concr Comp, 29: 656-666, (2007).
CR  - [10]  Wei X., Li Z., “Early hydration process of portland cement paste by electrical measurement”, J Mater Civ Eng, 18, 1: 99-105, (2006).
CR  - [11]  Buenfeld N.R.  Newman J.B.,” Examination of three methods for studying ion diffusion in cement pastes”, Mortars and Concrete. Mater Struc, 20: 3-10, (1987).
CR  - [12]  Li Z., Xiao,L., Wei X., “Determination of concrete setting time using electrical resistivity measurement”, Journal of Mater Civ Eng, 19, 5: 423-427, (2007).
CR  - [13]  Levita G., Marchetti A., Gallone G., Princigallo A., Guerrini G.L., “Electrical properties of fluidified portland cement mixes in the early stage of hydration”, Cem Concr Res, 30:  923-930, (2000).
CR  - [14]  Rajabipour F., Weiss J., “Electrical conductivity of drying cement paste”, Mater Struc, 40: 1143-1160, (2007).
CR  - [15]  Koleva D.A., Copuroglu O., Breugel K.V., Ye G., Wit J.H.W. de., “Electrical resistivity and microstructural properties of concrete materials in conditions of current flow”, Cem Concr Comp, 30: 731-744, (2008).
CR  - [16]  Xiao L., Li Z., “Early-age hydration of fresh concrete monitored by non-contact electrical resistivity measurement”, Cem Concr Res, 38: 312-319, (2008).
CR  - [17] Chung D.D.L.R., “Damage in cement-based materials studied by electrical resistance measurement”, Mater Sci Eng, 42: 1–40, (2003).
CR  - [18]  Tamaás F.D., Farkas E., Vӧrӧs M.,  Roy D.M., “Low- frequency electrical conductivity of cement, clinker and clinker mineral pastes”, Cem Concr Res, 17: 340-348, (1987).
CR  - [19]  Zhiyong L., Yunsheng Z., Laibao L., Qian J., “An analytical model for determining the relative electrical resistivity of cement paste and C–S–H Gel, Construction and Building Materials, 48, 647-655, (2013).
CR  - [20]  Maa H., Hou D., Liu J., Li Z., “Estimate the relative electrical conductivity of C–S–H gel from experimental results”, Construction and Building Materials, 71: 392-396, (2014).
CR  - [21]  Topçu İ.B., Uygunuğlu T., Hocaoğlu İ., “Electrical conductivity of setting cement paste with different mineral admixtures”, Construction and Building Materials, 28: 414-420, (2012).
CR  - [22]  Topçu İ.B., Uygunuğlu T., Hocaoğlu İ., “Electrical resistivity of fly ash blended cement paste at hardening state”, Materials Science, 22: 458-462, (2016).
CR  - [23]  EN 197-1/A3, “Cement- Part 1: Compositions and Conformity Criteria for Common Cements, TSE Ankara”, Turkey; [in Turkish] (2010).
CR  - [24] Salem T.M., “Electrical conductivity and rheological properties of ordinary portland cement–silica fume and calcium hydroxide–silica fume pastes”, Cem Concr Res, 32: 1473-1481 (2002).
CR  - [25]  McCarter W.J., Starrs G., Chrisp T.M., “Electrical conductivity, diffusion, and permeability of portland cement-based mortars, Cem Concr Res, 30: 1395-1400, (2000).
CR  - [26]  Emiroğlu M., Koçak Y., Subaşı S., “Yüksek fırın cürufunun beton fiziksel ve mekanik özelliklerine etkisi”, 6th International Advanced Technologies Symposium, Elazığ, (2011).
CR  - [27] Heikal M., Morsy M.S., Aiad I., “Effect of   treatment temperature on the early hydration characteristics of superplasticized silica fume blended cement pastes”, Cem Concr Res, 35: 680- 687, (2005).
UR  - https://doi.org/10.2339/politeknik.403970
L1  - https://dergipark.org.tr/tr/download/article-file/438466
ER  -