FUNDAMENTAL STUDY ON ANTI-WASHOUT UNDERWATER CONCRETE USING COPPER SLAG AND ELECTRIC FURNACE OXDATION SLAG

In this study, mix proportion, quality and construction performance of anti-washout underwater concrete using copper slag and electric furnace oxidation slag were examined. As a result, flowability and pumpability of concrete had good performance, but suspended solid content in water was increased....

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Veröffentlicht in:	Doboku Gakkai Ronbunshu. B3, Kaiyo Kaihatsu Ser. B3 (Ocean Engineering), 2015, Vol.71(2), pp.I_1179-I_1184
Hauptverfasser:	MORITA, Koji, MIYANE, Masakazu, AKIRA, Yoshikazu, TAKENAKA, Hiroshi, SUEOKA, Eiji, SANO, Kiyofumi, FUKUTE, Tsutomu
Format:	Artikel
Sprache:	eng
Schlagworte:	anti-washout underwater concrete COMPRESSIVE PROPERTIES Compressive strength CONCRETE Concretes Copper copper slag Cylinders electric furnace oxidation slag Electric furnaces ELECTRIC FURNACES (SMELTING) heavy weight concrete Marine Ocean engineering Slags Underwater
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container_title	Doboku Gakkai Ronbunshu. B3, Kaiyo Kaihatsu
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creator	MORITA, Koji MIYANE, Masakazu AKIRA, Yoshikazu TAKENAKA, Hiroshi SUEOKA, Eiji SANO, Kiyofumi FUKUTE, Tsutomu
description	In this study, mix proportion, quality and construction performance of anti-washout underwater concrete using copper slag and electric furnace oxidation slag were examined. As a result, flowability and pumpability of concrete had good performance, but suspended solid content in water was increased. In the strength design must be considered the variation of compressive strength due to slag. However compressive strength can be estimated by using cylinder concrete specimens that was casted in water. Unit mass design can be estimated by mix proportion design. In this study, maximum unit mass was 3.0 t/m3. When flow distance in the water was 5m, quality of concrete had been keeping.
doi_str_mv	10.2208/jscejoe.71.I_1179
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subjects	anti-washout underwater concrete COMPRESSIVE PROPERTIES Compressive strength CONCRETE Concretes Copper copper slag Cylinders electric furnace oxidation slag Electric furnaces ELECTRIC FURNACES (SMELTING) heavy weight concrete Marine Ocean engineering Slags Underwater
title	FUNDAMENTAL STUDY ON ANTI-WASHOUT UNDERWATER CONCRETE USING COPPER SLAG AND ELECTRIC FURNACE OXDATION SLAG
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