粉煤灰
抗压强度
材料科学
石膏
复合材料
多孔性
复合数
水分
极限抗拉强度
煤
湿度
原材料
废物管理
物理
工程类
有机化学
化学
热力学
作者
Mouatassim Charai,Mohamed Oualid Mghazli,Salaheddine Channouf,Aboubakr El Hammouti,P. Jagadesh,Ligia Moga,Ahmed Mezrhab
标识
DOI:10.1016/j.conbuildmat.2023.132092
摘要
Due to raw material shortages and waste management concerns, composite building materials made from industrial by-products have become a key component of tomorrow's construction sector. Herein, the synergetic effects of coal fly ash (CFA) and shot plant fibers (Alfa fibers – AF) on the thermophysical, mechanical and moisture-related properties of gypsum plaster were investigated. CFA was used as a partial gypsum substitute at a range of 0–80 wt%, while short AF were used as bio-aggregates ranging from 0 to 6 wt%. The developed composites presented bulk density, compressive strength, thermal conductivity and moisture buffering values between 934–1340 kg/m3, 1.38–6.98 MPa, 0.26–0.57 W/mK and 0.41–1.71 g/m2%RH, respectively. Experimental results proved the efficacy of CFA as hygrothermal optimizer, while AF served as hygroscopic agent and reinforcement to offset the compressive strength loss caused by generated porosity. Combining 50 wt% CFA with 6 wt% short AF resulted in a lightweight gypsum composite with enhanced hygrothermal capabilities that met compressive strength requirements (>2MPa). The proposed gypsum composite showed a good application prospect in passive thermal and humidity regulation in buildings.
科研通智能强力驱动
Strongly Powered by AbleSci AI