期刊
CONSTRUCTION AND BUILDING MATERIALS
卷 340, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.conbuildmat.2022.127695
关键词
Steel slag; Wood strands; Carbonation; Slag-bonded strand boards; CO2 sequestration; Durability; Carbon-negative product
资金
- Fonds de recherche du Quebec - Nature et technologies (FRQNT)
- Fonds de recherche du Quebec - Societe et culture (FRQSC)
In this study, the feasibility of using carbonation-activated steel slag as the exclusive binder for slag-bonded strand boards was investigated. The results demonstrated that carbonation curing improved the performance and compatibility of the boards, meeting International Standard requirements. Accelerated ageing tests and microstructure analysis confirmed its superior durability and carbon-negative characteristics.
The feasibility of using carbonation-activated steel slag as the exclusive binder for the production of slag-bonded strand boards was studied in an attempt to replace the cement-bonded fiberboards and resin-bonded strand boards. After 12-hours of carbonation curing, the developed slag-bonded strand board displayed excellent compatibility and enhanced performance owing to the slag chemistry. Carbonated boards successfully met International Standard requirements for mechanical strength and physical performance. Durability of the composite was examined through accelerated ageing by warm water test and soak-dry cycles. Microstructure development was monitored through X-ray diffraction (XRD), thermogravimetric analysis (TGA), Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy (SEM). The study demonstrated that carbonation curing successfully reduced the production time, activated the dormant gamma-C2S, contributed towards superior dimensional stability, and sequestered almost 10.8 % of CO2 by dry slag mass. A further 28 days of hydration improved the mechanical characteristics of the composite and contributed towards a superior end-product. It was found that slag-bonded strand boards are resistant to ageing owing to carbonation-induced precipitation and are carbon-negative with higher carbon storage capacity and lower production cost.
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