POSSIBILITY OF USING COMPRESSED RICE STRAW AS AN INSULATION MATERIAL
Shetawy, M., El Bessoumy, R., Badr, M. (2014). POSSIBILITY OF USING COMPRESSED RICE STRAW AS AN INSULATION MATERIAL. EKB Journal Management System, 5(11), 1473-1487. doi: 10.21608/jssae.2014.49781
M.A. E. Shetawy; R.R. El Bessoumy; M.M. Badr. "POSSIBILITY OF USING COMPRESSED RICE STRAW AS AN INSULATION MATERIAL". EKB Journal Management System, 5, 11, 2014, 1473-1487. doi: 10.21608/jssae.2014.49781
Shetawy, M., El Bessoumy, R., Badr, M. (2014). 'POSSIBILITY OF USING COMPRESSED RICE STRAW AS AN INSULATION MATERIAL', EKB Journal Management System, 5(11), pp. 1473-1487. doi: 10.21608/jssae.2014.49781
Shetawy, M., El Bessoumy, R., Badr, M. POSSIBILITY OF USING COMPRESSED RICE STRAW AS AN INSULATION MATERIAL. EKB Journal Management System, 2014; 5(11): 1473-1487. doi: 10.21608/jssae.2014.49781

POSSIBILITY OF USING COMPRESSED RICE STRAW AS AN INSULATION MATERIAL

Journal of Soil Sciences and Agricultural Engineering
Article 4, Volume 5, Issue 11, November 2014, Page 1473-1487  XML PDF (399.71 K)
Document Type: Original Article
DOI: 10.21608/jssae.2014.49781
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Authors
M.A. E. Shetawy1; R.R. El Bessoumy1; M.M. Badr2
1Structures and environmental control Dept. Fac. of Agric. Eng., Al-Azhar Univ., Cairo, Egypt.
2Products Process Dept., Fac of Ag. Eng. Al-Azhar Univ., Cairo, Egypt.
Abstract
                The present work introduces composite manufactured from grounded rice straw via addition urea-formaldehyde "UF" resin as a binding material. The different percentages of commercial urea-formaldehyde resin were used by weight as binder in manufacturing of the composite. The expansion percentage "E" (%), bulk density "Bd" (kg/m3) and thermal conductivity "k" (W/m.oC) of the manufactured composite affected by different content of  binding material "Bm" UF resin (0, 20, 30, 40 and 50%), different formation pressure "FP" of (5.7, 12.4 and 18.5 MPa) and elapsed time (days) after releasing formation pressure. The results showed that expansion percentage "E" (%) increased with increasing of formation pressure "FP" and elapsed time (days) at different binding material "Bm" (%). The bulk density "Bd" (kg/m3) was higher at binding material percentages "Bm" of 50 % under formation pressures of 18.5 MPa, after 0, 7 and 14 days. The bulk density “Bd” (kg/m3) was lower at binding material percentages "Bm" of 0 % (control) under formation pressures of 5.7 MPa, after 0, 7 and 14 days. The thermal conductivity "k"(W/m.oC) decreased with increasing formation pressure "FP" and binding material percentage.
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