Comparative microstructures and mechanical properties of mortar incorporating wood fiber waste from various curing conditions

This research investigated the effect of curing conditions on properties of mortar incorporating wood fiber waste (WFW). Normal curing, low heat curing (70 °C) and autoclave curing were compared, while the WFW was added 0–5% by weight of ordinary Portland cement. The increasing percentages of WFW re...

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Bibliographic Details
Published in:Case Studies in Construction Materials 2022-06, Vol.16, p.e00855, Article e00855
Main Authors: Kunchariyakun, Kittipong, Sinyoung, Suthatip, Kajitvichyanukul, Puangrat
Format: Article
Language:English
Subjects:
Curing conditions
Interfacial transition zone
Mortar
Wood fiber waste
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Summary:This research investigated the effect of curing conditions on properties of mortar incorporating wood fiber waste (WFW). Normal curing, low heat curing (70 °C) and autoclave curing were compared, while the WFW was added 0–5% by weight of ordinary Portland cement. The increasing percentages of WFW reduced the dry density, compressive and flexural strengths, approximately 4–13%, 10–70% and 3–65%, respectively, under all curing conditions. The application of autoclave curing has relatively low values of flexural-compressive strength ratio compared to normal curing and low heat curing. The highest flexural-compressive strength ratio was the mortar incorporating WFW 5% by weight under normal curing at 28 days. The width of the interfacial transition zone between WFW and mortar at 28 days normal curing was relatively low (44.72 ± 14.63 µm) compared to autoclave curing (23.84 ± 8.90 µm). Microstructure analysis revealed that autoclave curing leads to the hydration products being crystalline, while hydration products can be developed during the curing process. Results from this work can benefit in selecting the curing conditions for the WFW mortar. •Effects of curing conditions on properties of mortar with fiber waste were investigated.•Adding wood fiber waste had a positive effect on flexural strength.•Curing conditions had a strong impact on the mortar properties.•Autoclaved curing exhibited larger width of ITZ between fiber waste and mortar than normal curing.
ISSN:2214-5095
2214-5095
DOI:10.1016/j.cscm.2021.e00855