材料研究学报  2008, Vol. 22 Issue (5): 449-453

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铝交联膨润土复合涂层的制备和导水性能

张增志;杨春卫;许海凤;牛俊杰

中国矿业大学（北京）生态功能材料研究所

Test studies on Al3+ cross-linking agent polish bentonite as hydraulic conductivity coating material

中国矿业大学（北京）生态功能材料研究所

张增志; 杨春卫; 许海凤; 牛俊杰 . 铝交联膨润土复合涂层的制备和导水性能[J]. 材料研究学报, 2008, 22(5): 449-453.

摘要 参考文献 相关文章 Metrics 全文: PDF(805 KB)   摘要: 将铝交联膨润土与有机溶剂溶解的EVA混合制备导水复合涂层, 测定了纤维在不同温度下的连续失水情况、交联剂对膨润土的修饰效果和材料的孔结构. 结果表明, 铝离子水解产生多种聚合度交联剂, 膨润土经其修饰后层间由单一的规则孔道变为多种杂化孔道, 最小孔道是一种尺寸为1.5 nm的板状毛细孔, 增大了比表面积, 提高了吸附性能. 这种结构产生的毛细孔凝聚能实现对水的有效控释. 关键词 ： 复合材料,  铝交联剂,  修饰膨润土     Abstract：Carbon pillared inorganic porous material were prepared by bentonite with the addition of Al3+ cross-linking agent. Al3+ cross-linking agent polish bentonite as Hydraulic conductivity Coating material，s hydraulic conductivity properties was researched, The porous material were characterized by the FT-IR spectrum, XRD, and nitrogen absorption. The influence of cross-linking agent was investigated respectively. The research results show that surfactant combine with bentonite particles by both types of covalent bond and particles embedded, material，s average pore size is of nano and comparing surface very large, polished bentonite has great adsorption and is of good watering property as hydraulic conductivity coating. Key words： 收稿日期: 2007-10-26      ZTFLH:  S156   服务 把本文推荐给朋友 加入引用管理器 E-mail Alert RSS 作者相关文章 张增志 杨春卫 许海凤 牛俊杰 44.8K 链接本文: https://www.cjmr.org/CN/Y2008/V22/I5/449 1 WANG Tao,ZHAO Halin,Prevention and cure for de- sertification and utilizing of desert source,China Desert, 9(4),299(1999) (王涛，赵哈林，沙漠化防治与沙区资源开发利用，中国沙漠，9(4)，299(1999)) 2 G.Wallace,A.Wallace,Control of soil erosion by boly- meric soil conditioners,Soil Science,141(5),363(1986) 3 LI Jie,DING Caixia,LUAN Chang,Absorption capabil- ity comparison of two kinds of super absorbent resins from carboxymethyl cellulose,Journal of Beijing Institute of Technology,18,98(2007) 4 DANG Xiuli,ZHANG Yulong,HUANG Yi,Research sta- tus and prospect on application of water holding agents in agriculture,Chinese Journal of Soil Science,2,352(2006) (党秀丽，张玉龙，黄毅，保水剂在农业上的研究与应用进展，土壤通报，2，352(2006)) 5 D.C.Bowman,R.Y.Evans,Calcium inhibition of poly- acrylimide gel hydration is partiallyreversible by potas- sium,Hort.Sci.,26(8),1063(1999) 6 J.Woodhouse,M.S.Johnson,Effect of superabsorbent polymers on survival and growth of crop seedlings,Agri- cultural Water Management,20,63(1991) 7 ZHOU Ping,LI Jiyue,YANG Qingli,The effect of solid water on seedlings,Journal of Beijing Forestry University, 24(1),16(2002) (周平，李吉跃，杨庆理，固体水对苗木作用效应的研究，北京林业大学学报，24(1)，16(2002)) 8 YIN Guoping,NONG Rengang,LIU Gening,Advances in the research and utilization of water-absorbing poly- mer in forestry in China,World Forester Reserch,14(2), 50(2001) (尹国平，农韧钢，刘革宁，高吸水剂在我国林业上的研究进展，世界林业研究，14(2)，50(2001)) 9 C.van Netten U,Multi-elemental analysis of jet engine lubricating oils and hydraulic fluids and their implication in aircraft air quality incidents,The Science of the Total Environment,229,125(1999) 10 G.Caporiccio,P.M.Cann,H.A Spikes,Additives for fluo- rosilicone oils at high temperature,Wear,193,261(1996) 11 ZHOU Jingfang,ZHANG Zhijun,WANG Xiaobo,Oil- soluble copper nanoparticles liquid paraffin as the tribo- logical properties of additives,Tribology Journals,20(2), 123(2000) (周静芳，张治军，王晓波，油溶性铜纳米微粒作为液体石蜡添加剂的摩擦学性能研究，摩擦学学报，20(2)，123(2000) 12 HUANG Jitai,SHAO Wei,The nature and number of acti- vated clay application,Overseas Chinese University Jour- nal,11(3),273(1990) (黄继泰，邵伟，活性白土性质及若干应用探讨，华侨大学学报，11(3)，273(1990)) 13 D.E.W.Vaughan,Pillared clays-A hitorical perspective, Catalysis Today,8(2),188(1988) 14 XIAO Zijing,DAI Jincao,YE Ling,Formation of cross-linking montmorillonite nanocomposites by adopt- ing chromium compound,Journal of Inorganic Materials, 18(2),381 (2003) (肖子敬，戴劲草，叶玲，铬簇合物及铬铝交联蒙脱石纳米复合材料的形成，无机材料学报，18(2)，381(2003)) 15 YAN Jimin,ZHANG Qiyuan,GAO Jingzong,Adsorption and Agglomeration (Beijing,Science & Technology Press, 1986) p.103 (严继民，张启元，高敬琮，吸附与凝聚(北京，科学技术出版社，1986)p．103) [1] 潘新元, 蒋津, 任云飞, 刘莉, 李景辉, 张明亚. 热挤压钛/钢复合管的微观组织和性能[J]. 材料研究学报, 2023, 37(9): 713-720. 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