Jieguang Songa,b,*, Xueqing Yangb, Ping Chena, Hao Xub, Deping Luoc, Rongjin Liua and Zhijun Laic
aGuangxi Key Laboratory of New Energy and Building Energy Saving, Guilin University of Technology, Guilin 541004, China
bResearch Institute for Sponge City, Pingxiang University, Pingxiang 337055, China
cJiangxi Pingxiang Longfa Enterprise Co., Ltd., Pingxiang 337022, China
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The prepared permeable bricks using electric porcelain waste as the main raw material are investigated, which improves the utilization rate of electric porcelain waste, and realizes the organic unity of recycling resource and ecological environment protection. The effects of different raw material ratios on the permeability coefficient, apparent porosity, compressive strength, volume shrinkage rate and microstructure properties of electric porcelain waste permeable bricks are investigated. The electric porcelain waste with a ratio of over 85 wt.% have greatly improved the utilization rate of electric porcelain waste. The results are shown that the water-to-material ratio or foaming agent content are increased, the porosity and water permeability of the electric porcelain waste permeable brick are increased, but the compressive strength of the electric porcelain waste permeable brick is decreased. The 90 wt.% electric porcelain waste, the 3 wt.% kaolin, the 5 wt.% sintering aid, and the 2 wt.% foaming agents are optimum raw materials ratios, the water-to-material ratio for 0.9 and the drying temperature at 40 oC, the sintering temperature at 1200 oC and holding time for 1 h are obtained the excellent performance electric porcelain waste permeable bricks. The permeability coefficient is 3.9×10−2 cm/s, the volume shrinkage rate is 37.88%, the compressive strength is 1.146 MPa, and the porosity is 79.0%
Keywords: Permeable bricks, Raw materials ratio, Electric porcelain waste, Permeability coefficient
2022; 23(4): 409-414
Published on Aug 31, 2022
aGuangxi Key Laboratory of New Energy and Building Energy Saving, Guilin University of Technology, Guilin 541004, China
bResearch Institute for Sponge City, Pingxiang University, Pingxiang 337055, China
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