Results 291 to 300 of about 119,617 (348)
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Structural Concrete, 2022
Obtaining a trustworthy approach to forecast the chloride penetration into self‐compacting concrete via rapid test may lead to frugality in cost, time, and energy to provide a durable mix design.
Jia Yuan, Ming Zhao, M. Esmaeili‐Falak
semanticscholar +1 more source
Obtaining a trustworthy approach to forecast the chloride penetration into self‐compacting concrete via rapid test may lead to frugality in cost, time, and energy to provide a durable mix design.
Jia Yuan, Ming Zhao, M. Esmaeili‐Falak
semanticscholar +1 more source
Structural Concrete, 2021
The use of Class F fly ash (CFFA) as a partial replacement of cement in the concrete mixture can provide a wide variety benefits such as improving the mechanical properties, reducing the construction costs, and enhancing the environmental conditions ...
Gholamreza Pazouki +2 more
semanticscholar +1 more source
The use of Class F fly ash (CFFA) as a partial replacement of cement in the concrete mixture can provide a wide variety benefits such as improving the mechanical properties, reducing the construction costs, and enhancing the environmental conditions ...
Gholamreza Pazouki +2 more
semanticscholar +1 more source
Structural Concrete, 2021
This article presents the effect of LaSrCoO3, oxides commonly known as LSCO nanomaterials, on rheological, mechanical and microstructural properties of self‐compacting concrete (SCC).
A. Bahari +6 more
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This article presents the effect of LaSrCoO3, oxides commonly known as LSCO nanomaterials, on rheological, mechanical and microstructural properties of self‐compacting concrete (SCC).
A. Bahari +6 more
semanticscholar +1 more source
Journal of materials in civil engineering, 2022
This paper presents the experimental and numerical studies of flexural-fracture behaviors of steel fiber–reinforced rubber self-compacting concrete (SRSCC) materials.
Jiaqing Wang, Qingli Dai, Ruizhe Si
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This paper presents the experimental and numerical studies of flexural-fracture behaviors of steel fiber–reinforced rubber self-compacting concrete (SRSCC) materials.
Jiaqing Wang, Qingli Dai, Ruizhe Si
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Structural Concrete, 2022
The present study is focused on the compressive strength, water retention, and workability by varying the percentage of poly ethylene glycol 200 and liquid paraffin wax from 0% to 1% by weight of cement for self‐compacting concrete and compares it with ...
S. Dey +2 more
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The present study is focused on the compressive strength, water retention, and workability by varying the percentage of poly ethylene glycol 200 and liquid paraffin wax from 0% to 1% by weight of cement for self‐compacting concrete and compares it with ...
S. Dey +2 more
semanticscholar +1 more source
Fatigue lives of self-compacting concrete and self-compacting fibre-reinforced concrete beams
Proceedings of the Institution of Civil Engineers - Construction Materials, 2013This paper presents results of an investigation conducted to estimate the mean and design fatigue lives of self-compacting concrete and self-compacting fibre-reinforced concrete beams containing 0·5% volume fraction of steel fibres. Approximately 19 flexural fatigue tests and 90 complementary static flexural strength tests were conducted on self ...
Sanjay Goel +2 more
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Low-Strength Self-Compacting Concrete
Solid State Phenomena, 2017Self-compacting concretes (SCC) are relatively modern building material that has great potential for using in a wide range of applications. Its origin and development is considered a major breakthrough in concrete technology, especially because of its ease of placement without the need to use external dynamic forces in the form of vibrations.
Lucia Osuská +2 more
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2015
Il presente volume, dedicato al calcestruzzo autocompattante o SCC, rappresenta la raccolta, rivista e corretta, di numerose tesine svolte da studenti dell’insegnamento di “Tecnologie delle Costruzioni Civili”, tenuto dallo scrivente a partire dall’AA 2004-2005. Gli ingegneri Elisa Bonannini e Lucia Cellesi, tutori di molte delle tesine sul tema, hanno
BONANNINI, ELISA +2 more
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Il presente volume, dedicato al calcestruzzo autocompattante o SCC, rappresenta la raccolta, rivista e corretta, di numerose tesine svolte da studenti dell’insegnamento di “Tecnologie delle Costruzioni Civili”, tenuto dallo scrivente a partire dall’AA 2004-2005. Gli ingegneri Elisa Bonannini e Lucia Cellesi, tutori di molte delle tesine sul tema, hanno
BONANNINI, ELISA +2 more
openaire +2 more sources
Self-Compacting High Performance Concrete
Structural Engineering International, 1996A self-compacting high performance concrete has been developed that is not affected by workmanship during placing and requires no consolidation afterwards.
Hajime Okamura, Kazumasa Ozawa
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