Study of hydration behaviors of wood-cement mixtures: Compatibility of cement mixed with wood fiber strand obtained by the water-vapor explosion process

To provide information on the feasibility of using exploded wood fiber strand (WFS) obtained by the water-vapor explosion process in wood-cement mixtures, the compatibility between cement and exploded WFS and its improvement with various additive chemicals were investigated by observation and analys...

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Bibliographic Details
Published in:Journal of wood science 2002-10, Vol.48 (5), p.365-373, Article 365
Main Authors: Wei, Y.M. (Tsukuba Univ., Ibaraki (Japan). Inst. of Agricultural and Forest Engineering), Tomita, B, Hiramatsu, Y, Miyatake, A, Fujii, T
Format: Article
Language:English
Subjects:
ADDITIVES
Applied sciences
Buildings. Public works
CALCIUM OXIDE
CEMENT
Cement concrete constituents
Cement hydration
Cements
Compatibility
COMPOSITE BOARD
Exact sciences and technology
High performance liquid chromatography
HYDRATION
MAGNESIUM CHLORIDE
Materials
Organic chemistry
Polymer industry, paints, wood
Polysaccharides
Portland cements
Properties of anhydrous and hydrated cement, test methods
Raw materials
Slag cements
Wood
WOOD CHIPS
Wood fibers
WOOD TECHNOLOGY
Wood-based materials
Wood. Paper. Non wovens
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Summary:To provide information on the feasibility of using exploded wood fiber strand (WFS) obtained by the water-vapor explosion process in wood-cement mixtures, the compatibility between cement and exploded WFS and its improvement with various additive chemicals were investigated by observation and analysis on hydration behaviors in terms of hydration characteristics: maximum hydration temperature (Tmax) and required time (tmax). The three types of cement, six additive chemicals, and exploded WFS (sugi, air-dried and water-soaked) were employed as raw materials in this study. The hydration behaviors of mixtures demonstrated that exploded WFS had strong retarding effects on cement hydration and completely prevented mixtures from setting. The analysis of sugar revealed that the sugar contents of exploded WFS were much higher than those in unexploded wood and increased to about 20-fold (air-dried) and 10-fold (water-soaked), respectively. The degraded polysaccharides became a major factor and played an important role in inhibiting the setting of cement. Moreover, high-performance liquid chromatography analysis proved that the main peaks representing the molecular weight of polysaccharides in extractives of exploded WFS shifted markedly to a lower range of polymerization. MgCl2 was determined to be an effective additive chemical for restraining the inhibitory influences. Addition contents of 2%–3% and 4%–5% were available and acceptable for quick-curing cement and ordinary Portland cement, respectively. As for the furnace-slag cement, the composite additive chemicals of MgCl2 (4%) and CaO (2%) were found to have an obvious accelerating effect.
ISSN:1435-0211
1611-4663
1611-4663
DOI:10.1007/BF00770695