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Water Absorption Ratio and Flexural Strength Characteristics of Lightweight Composite Panel Surface Material Based on Addition Ratio of Powdery Modified Sulfur
Corresponding Author(s) : Sangsoo Lee
Asian Journal of Chemistry,
Vol. 27 No. 11 (2015): Vol 27 Issue 11
Abstract
In this study, we compared the water absorption ratio and flexural strength properties based on addition ratio of powdery modified sulfur to decrease the water absorption ratio of lightweight composite panel surface material. The water absorption ratio decreased as the addition ratio of powdery modified sulfur increased, while the density and flexural strength tended to increase.
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- B.Y. Jung, C.S. Park, S.S. Lee and H.Y. Song, J. Archit. Inst. Korea, 33, 679 (2013).
- B.Y. Jung, S.S. Lee and H.Y. Song, Shrinkage Strain Property of the Magnesium Oxide Matrix According to Magnesium Chloride Addition Ratio, Institute of Building Construction, pp. 91-94 (2013).
- H.T. Kim, B.Y. Jung, S.S. Lee and H.Y. Song, J. Korea Inst. Build. Constr., 14, 308 (2014); doi:10.5345/JKIBC.2014.14.4.308.
References
B.Y. Jung, C.S. Park, S.S. Lee and H.Y. Song, J. Archit. Inst. Korea, 33, 679 (2013).
B.Y. Jung, S.S. Lee and H.Y. Song, Shrinkage Strain Property of the Magnesium Oxide Matrix According to Magnesium Chloride Addition Ratio, Institute of Building Construction, pp. 91-94 (2013).
H.T. Kim, B.Y. Jung, S.S. Lee and H.Y. Song, J. Korea Inst. Build. Constr., 14, 308 (2014); doi:10.5345/JKIBC.2014.14.4.308.