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分别选用分子量Mn为929、1050、1186的聚碳硅烷(polycarbosilane,PCS)与乙酰丙酮铝反应制备含铝聚碳硅烷(polyaluminocarbosilanes,PACS),研究PCS分子量对PACS性能及结构的影响。结果表明:随着PCS分子量的增加,PACS分子量逐渐增加,分布加宽,而活性基团Si—H键含量没有明显变化;随着PCS分子量增加,PACS陶瓷产率增加。将不同的PACS进行热交联,其陶瓷产率明显提升,增长幅度随PCS分子量增大而增大。PACS的纺丝性能随PCS分子量增大而降低。
Abstract:In order to investigate the influence of the molecular mass of polycarbosilane(PCS) on the polyaluminocarbosilanes(PACS),the PACS was synthesized by the PCS with different molecular masses(Mn)(i.e.,Mn: 929,1 050 and 1 186).The results in-dicate that the magnitude and the distribution width of the molecular mass of PACS both increase with the increase of the molecular mass of PCS.The amount of Si—H bond of PACS show little variation with the increase of the molecular mass of PCS,but the ce-ramic yield of PACS exhibited an increase.The ceramic yield of PACS was increased via thermal crosslinking of different PACSs,and the growth degree was increased due to the increase of the molecular mass of PCS.The spinning property of PACS decreased with the increase of molecular mass of PCS.
[1]YAJIMA S,HASEGAWA Y,HAYASHI J,et al.Synthesis of continu-ous silicon carbide fiber with high tensile strength and high Young’smodulus[J].J Mater Sci,1978,13:2569–2576.
[2]ISHIKAWA T,KOHTOKU Y,KUMAGAWA K,et al.High-strengthalkali-resistant sintered SiC fiber stable to 2 200℃[J].Nature,1998,391:773–774.
[3]ISHIKAWA T,KOHTOKU Y,KUMAGAWA K.Production mecha-nism of polyzirconocarbosilane using zirconium(Ⅳ)acetylacetonateand its conversion of the polymer into inorganic materials[J].J MaterSci,1998,33:161–166.
[4]余煜玺,李效东,曹峰,等.先驱体法制备的含铝SiC纤维的组成和结构研究[J].无机材料学报,2006,21(1):94–102.YU Yuxi,LI Xiaodong,CAO Feng,et al.J Inorg Mater(in Chinese),2006,21(1):94–102.
[5]赵大方,李效东,郑春满,等.采用聚硅碳硅烷与乙酰丙酮铝合成聚铝碳硅烷的机理[J].北京科技大学学报,2007,29(2):130–134.ZHAO Dafang,LI Xiaodong,ZHENG Chunman,et al.J Univ SciTechnol Beijing(in Chinese),2007,29(2):130–134.
[6]赵大方,李效东,王海哲,等.铝含量对含铝碳化硅陶瓷先驱体结构和性能的影响[J].化学学报,2008,66(21):2397–2402.ZHAO Dafang,LI Xiaodong,WANG Haizhe,et al.Acta Chim Sin(inChinese),2008,66(21):2397–2402.
[7]杨景明,杨露姣,余煜玺,等.不同温度下聚铝碳硅烷的合成与表征[J].化学学报,2009,67(17):2047–2051.YANG Jingming,YANG Loujiao,YU Yuxi,et al.Acta Chim Sin(inChinese),2009,67(17):2047–2051.
[8]CAO Feng,KIM Dong-Pyo,LI Xiaodong,et al.Synthesis of polyalu-minocarbosilane and reaction mechanism study[J].J Appl Sci,2002,85:2787–2792.
[9]张卫中,田秀梅,吕斌.陶瓷先驱体聚碳硅烷的合成方法[P].CNPatent,102002164A.2011–04–06.ZHANG Weizhong,TIAN Xiumei,LüBin.The synthesis method ofceramic precursor polycarbosilane(in Chinese).CN Patent,102002164A.2011–04–06.
[10]吴义伯,张国建,罗学涛,等.聚碳硅烷制备SiC纤维的热化学交联研究[J].材料工程,2006,1(增刊):317–318.WU Yibo,ZHANG Guojian,LUO Xuebo,et al.J Mater Eng(in Chi-nese),2006,1(suppl):317–318.
[11]陈朝辉.先驱体转化陶瓷基复合材料[M].北京:科学出版社,2012:42-43.
[12]杨露姣,杨景明,余煜玺,等.液态聚碳硅烷制备含铝碳化硅陶瓷先驱体–聚铝碳硅烷[J].硅酸盐学报,2009,37(12):1972–1973.YANG Lujiao,YNAG Jingming,YU Yuxi,et al.J Chin Ceram Soc,2009,37(12):1972–1973.
[13]程祥珍,谢征芳,宋永才,等.高压合成聚碳硅烷的分子量分布与可纺性[J].高分子材料科学与工程,2005,21(5):59.CHENG Xiangzhen,XIE Zhengfang,SONG Yongcai,et al.PolymerMater Sci Eng(in Chinese),2005,21(5):59.
基本信息:
中图分类号:TQ324.21
引用信息:
[1]吴永龙,马小民,陈秀娟,等.用不同分子量聚碳硅烷制备含铝聚碳硅烷[J].硅酸盐学报,2013,41(06):732-737.
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2013-05-21
2013-05-21