陶瓷废料水热固化技术在室内薄板材料上的应用  被引量:6

Application of Hydrothermal Curing Technology of Ceramic Waste in Indoor Sheet Materials

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作  者:兰浩然 景镇子[1] 萧礼标 黄玲艳 刘一军 LAN Haoran;JING Zhenzi;XIAO Libiao;HUANG Lingyan;LIU Yijun(School of Materials Science and Engineering, Tongji University, Shanghai 201804, China;Mona Lisa Group Co., Ltd., Foshan 528211, China)

机构地区:[1]同济大学材料科学与工程学院,上海201804 [2]蒙娜丽莎集团股份有限公司,广东佛山528211

出  处:《建筑材料学报》2020年第4期882-888,共7页Journal of Building Materials

摘  要:基于“元素循环”理念,模拟地下成岩机理,将陶瓷废弃物中的Si、Al和Ca元素,经水热固化技术转换为硅酸钙铝水合物(C-A-S-H)和铝代托勃莫来石,用于制作室内薄板材料,并采用万能材料试验机对薄板样品进行三点法抗折强度测试,同时采用X射线衍射(XRD)仪、傅里叶变换红外光谱(FTIR)仪、扫描电子显微镜(SEM)及湿度应答测试设备等研究其晶相、官能团、微观形貌和调湿性能.结果表明:原材料配合比和水热反应条件均会影响样品的抗折强度,当陶瓷废料掺量为70%,在约200℃、12h的水热固化环境下,样品的抗折强度最高可达23MPa;水热固化过程中生成的铝代托勃莫来石可以提升样品的孔隙率,使材料在具有高强度的同时还具备调湿功能.Based on the concept of element circulation,the mechanism of diagenesis of underground accumulative rocks was simulated with a view to convert Si,Al and Ca elements in the ceramic wastes into calcium aluminum silicate hydrate(C-A-S-H)gel and further to aluminum-substituted tobermorite by hydrothermal synthesis,with the result that indoor sheet materials were prepared.The flexural strength of the materials were tested by three-point method with universal material testing machine,and XRD,FTIR,SEM and humidity response test equipment were used to investigate the change of crystal phase and functional group,micro morphology and humidity-regulating performance.The mix proportion of raw materials was measured.The hydrothermal reaction conditions affect the flexural strength of the samples.The highest flexural strength of 23MPa can be obtained when 70%ceramic waste is cured in hydrothermal environment at about 200℃for 12h.At the same time,the generated tobermorite can enhance the porosity of the sample,so that the material has the function of humidity regulation.

关 键 词:陶瓷废弃物 水热 抗折强度 托勃莫来石 调湿 

分 类 号:TU523[建筑科学—建筑技术科学]

 

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