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Rheological properties of cement paste blended with sugarcane bagasse ash and rice straw ash

CONSTRUCTION AND BUILDING MATERIALS (2022)

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Summary: The study showed that adding 5%, 10%, and 15% sugarcane bagasse ash (SCBA) to concrete can reduce the porosity and water absorption, increase mechanical strength, but also lead to higher carbonation rate and shorter carbonation lifetime. In an industrial environment, all concrete specimens had a lifetime of over 50 years, except for that with 15% SCBA. Additionally, SCBA addition can lower chloride diffusion coefficients, increasing concrete lifetime by up to 97.3%.

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Summary: Studies on the utilization of residual sugarcane bagasse ash (SCBA) from high-temperature cogeneration boilers in concrete are limited. This study explored the pretreatment and optimization of SCBA collected from high-temperature boilers through various physicochemical methods. The research revealed that SCBA can be used as a supplementary cementitious material with minimal processing efforts, and a 15% replacement level is suggested as optimal for SCBA-blended cement. Additionally, a framework with step-by-step procedures including pretreatment and optimization methods is proposed for the use of SCBA based on the investigation.

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Article Construction & Building Technology

Chloride-binding capacity of ternary concretes containing fly ash and untreated sugarcane bagasse ash

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Summary: The experimental program revealed that ternary concretes containing untreated sugarcane bagasse ash (UtSCBA) exhibit the highest chloride-binding capacity. Chemical reactions between chlorides and the Afm and Aft phases in all concretes were observed, forming Friedel's salt.

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Influence of different processing methods on the pozzolanic performance of sugarcane bagasse ash

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Effect of macro-mesoporous rice husk ash on rheological properties of mortar formulated from self-compacting high performance concrete

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