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以尿素为改性剂,用水热处理方法对三水铝石进行了改性处理.结果表明,尿素的加入量和水热处理时间对产物微观结构有显著的影响,当尿素与三水铝石的摩尔比小于6:1时,水热处理24 h的产物为片状薄水铝石;当摩尔比超过8:1时,产物为板条组装的球形碱式碳酸铝铵.纯相碱式碳酸铝铵的形成与水热处理的时间有关,随处理时间的延长,氢氧化铝经历了由三水铝石到薄水铝石与碱式碳酸铝铵混相结构再到纯相碱式碳酸铝铵的演变过程,期阿发生由块体到片状再到片组装块体的微观形貌变化,最后演变为板条组装球形结构.

Gibbsite was modified by using urea as modifying agent via a hydrothermal method.Effects of the amount of urea and hydrothermal times on the microstructures were investigated. The results show that the slice-like boehmite microstructure can be obtained at 140 ℃ for 24 h when the molar ratio of urea to gibbsite is less than 6:1, while the global ammonium aluminum carbonate hydroxide (AACH) microstructure can be prepared at 140 ℃ for 24 h when the molar ratio was more than 8:1. The formation of AACH depends on the hydrothermal times. Aluminum hydroxide turned from gibbsite to the mixture of boehmite and AACH. Finally, AACH is synthesized. The morphology of aluminum hydroxide transformed from the block to the slice, and the global AACH architectures assembled by the lathes were obtained finally.

参考文献

[1] GAO Lian,SUN Jing,LIU Yangqiao,Dispersibility and Surface Modification of Nanopowders (Beijing,The Press of Chemistry Industry,2003) p.208(高廉,孙静,刘阳桥,纳米扮体的分散与表面改性(北京,化学工业出版社,2003)P.208)
[2] J.Zhang,S.J.Liu,J.Lin,H.S.Song,J.J.Luo,E.M.Elssfah,E.Ammar,Y.Huang,X.X.Ding,J.M.Gao,S.R.Qi,C.C.Tang,Self-assembly of flowerlike AlOOH (Boehmite) 3D nanoarchitectures,J.Phys.Chem.B,110,14249(2006)
[3] Y.Liu,D.Ma,X.W.Han,X.H.Bao,W.Frandsen,D.Wang,D.S.Su,Hydrothermal synthesis of microscale boehmite and gamma nanoleaves alumina,Mater.Lett,62(8-9),1297(2008)
[4] LI Shaokang,Application trend of inorganic Mg(OH)_2Al(OH)_3 flame retardant,Inorganic Chemicals Industry,35(3),11(2003)(李少康,无机镁铝阻燃剂及其应用发展趋势浅析,无机盐工业,35(3),11(2003))
[5] CHEN Xingjuan,WANG Jinyang,LIU Jia,LONG Fei,Technology for the surface treatment of inorganic fire retarding agent,Chemical Engineer,4,22(2001)(陈兴娟,王金阳,刘佳,龙飞,无机阻燃剂的表面处理技术,化学工程师,4,22(2001))
[6] LIU Lijun,GUO Fen,CHEN Jianfeng,Surface modification of nanosized aluminium trihydrate,Journal of Beijing University of Chemical Technology,31(3),22(2004)(刘丽君,郭奋,陈建峰,纳米氢氧化铝的表面改性研究,北京化工大学学报,31(3),22(2004))
[7] D.B.Kuang,Y.P.Fang,H.Q.LIn,C.Frommen,D.Fenske,Fabrication of boehmite AIOOH and γ-Al_2O_3nanotubes via a soft solution route,J.Mater.Chem.,13,660(2003)
[8] LILT Jiaoping,FENG Guozheng,LI Jing,Surface modification study of fine-white aluminum hydroxide,Conservation and Utilization of Mineral Resources,2,23(2006) (刘焦萍,冯国政,李静,细白氢氧化铝表面改性技术研究,矿产保护与利用,2,23(2006))
[9] LIU Lihua,DONG Yuhuan,JIA Jingxian,Surface modification of aluminum trihydrate as flame retardant,Plastics Science and Technology,36,88(2008)(刘立华,董玉环,贾静娴,氢氧化铝阻燃剂的表面改性,塑料科技,36,88(2008))
[10] Yu Weiwei,PI Yinan,LIN Lian,LI Halping,YANG Shuming,ZHU Yuan,A study on ultrafine modified aluminum hydroxide,Fine Chemical Intermediates,37(3),63(2007)(余蔚蔚,皮银安,林炼,李海屏,杨述明,朱源,超微细改性氢氧化铝的工艺研究,精细化工中间体,37(3),63(2007))
[11] LI Qingfeng,DAI Xiaming,AI Desheng,LIU Jianliang,Study on fabrication method and application of gighpure alumina,China Powder Science and Technology,6,263(2000) (李庆丰,戴遐明,艾德生,刘建良,高纯氧化铝制备新方法及其应用研究,中国粉体技术,6,263(2000))
[12] J.F.Chen,Y.H.Wang,F.Guo,Study on flame retardant based on aluminum hydroxide,Ind.Eng.Chem.Res,39(4),242(2000)
[13] X.F.Zhang,Z.Y.Wen,Z.H.Gu,X.H.Xu,Z.X.Lin,Hydrothermal synthesis and thermodynamic analysis of dawsonite-type compounds,J.Solid State Chem.,177(3),849(2004)
[14] C.C.Ma,X.X.Zhou,X.Xu,T.Zhu,Synthesis and thermal decomposition of ammonium aluminum carbonate hydroxide (AACH),Mater.Chem.and Phys.,72,374(2001)
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