Prediction of Fresh and Hardened Properties of Self-Compacting Heavy-Weight Concrete Using Response Surface

The aim of this study is to investigate the fresh and hardened properties of the self-compacting heavy-weight concrete (SCHWC) and to develop a mathematical model for the prediction of these properties. The binder was the Portland cement and fly ash (FA). Barite aggregate was used to achieve the hea...

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Veröffentlicht in:	Journal of Applied Engineering Sciences 2022-05, Vol.12 (1), p.77-86
Hauptverfasser:	Sagliyan, Sibel, Yalcin, E., Alyamac, K. E., Polat, C.
Format:	Artikel
Sprache:	eng
Schlagworte:	compressive strength response surface method Self-compacting heavy-weight concrete slump flow V-funnel
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container_title	Journal of Applied Engineering Sciences
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creator	Sagliyan, Sibel Yalcin, E. Alyamac, K. E. Polat, C.
description	The aim of this study is to investigate the fresh and hardened properties of the self-compacting heavy-weight concrete (SCHWC) and to develop a mathematical model for the prediction of these properties. The binder was the Portland cement and fly ash (FA). Barite aggregate was used to achieve the heavy-weight concrete (HWC). A polycarboxylate based super plasticizer was used to increase workability and reach self-compacting feature. To research the fresh and hardened properties SCHWC many concrete mixes were prepared accordingly with “water-cement ratios”, “total aggregate-cement ratios”, and “fly ash-cement ratios”. These samples were tested to get the slump-flow, V-funnel, 7 and 28-day compressive strength values. The Response Surface Methodology (RSM) was used to develop regression equations using these experimental results. It is observed that the estimated values obtained with RSM are compatible with those obtained by the experimental method for the fresh and hardened properties of SCHWC.
doi_str_mv	10.2478/jaes-2022-0012
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subjects	compressive strength response surface method Self-compacting heavy-weight concrete slump flow V-funnel
title	Prediction of Fresh and Hardened Properties of Self-Compacting Heavy-Weight Concrete Using Response Surface
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