聚碳硅烷热解前的交联对于提高其最终陶瓷产率至关重要.研究了过氧化苯甲酰(BPO)引发液态超支化聚碳硅烷(HBPCS)的交联反应对于陶瓷产率的影响.FT-IR和GPC证实,添加为0.5%~2.0%(质量分数,下同)的BPO,即可在80~140℃下引发HBPCS交联;在考察的实验条件下,提高交联温度、延长反应时间或增加BPO用量,均可提高HBPCS交联程度.BPO用量为2.0%时,HBPCS交联样品在1000℃下的陶瓷产率高达65%,比未加BPO的提高25%.
In order to increase the final ceramic yield, the cross-linking of polycarbosilane prior to its pyrolysis is very important. In this paper, benzoyl peroxide (BPO) was used to initiate the cross-linking of a hyperbranched liquid polycarbosilane (HBPCS), and the influence of the cross-linking on the ceramic yield was studied. The results indicate that the cross-linking was successfully initiated at 80-140℃ with the weight ratio of BPO to HBPCS of 0.5%-2.0%, which was conformed by means of Fourier transform infrared (FT-IR) and gel permeation chromatography (GPC). It was found that higher reaction temperature, longer reaction time or more BPO content improves the cross-linking reaction under the investigated reaction conditions. The ceramic yield of cross-linked HBPCS intiated by 2.0% BPO reached 65%, which is 25% higher than that of HBPCS without BPO.
参考文献
| [1] | Leyens C;Hausmann J;Kumpfert J .[J].Advances in Engineering Materials,2003,5:399-410. |
| [2] | Ishikawa T;Kajii S;Matsunaga K .[J].Science,1998,282:1295-1297. |
| [3] | L.V.Interrante;K.Moraes;Q.Liu;N.Lu .Silicon-Based ceramics from polymer precursors[J].Pure and Applied Chemistry,2002(11):2111-2117. |
| [4] | Tian Hua Huang;Zhao Ju Yu;Xu Min He .One-pot synthesis and characterization of a new,branched polycarbosilane bearing allyl groups[J].Chinese Chemical Letters,2007(6):754-757. |
| [5] | Li H B;Zhang L T;Cheng L F et al.[J].Journal of the European Ceramic Society,2008,28:887-891. |
| [6] | Li HB;Zhang LT;Cheng LF;Wang YG;Yu ZJ;Huang MH;Tu HB;Xia HP .Polymer-ceramic conversion of a highly branched liquid polycarbosilane for SiC-based ceramics[J].Journal of Materials Science,2008(8):2806-2811. |
| [7] | 李厚补,张立同,成来飞,徐永东.先驱体转化法制备碳化硅陶瓷产率研究评述[J].高分子材料科学与工程,2007(04):20-23. |
| [8] | Froehling P E .[J].Journal of Inorganic and Organometallic Polymers,1993,3(03):251-258. |
| [9] | 陈曼华,陈朝辉,肖安.氯铂酸催化剂在聚碳硅烷与二乙烯基苯交联中的应用[J].硅酸盐学报,2004(06):759-762. |
| [10] | Liu, Q;Lewis, R., -;Maciel, GE;Interrante, LV;Wu, HJ .Investigation of the pyrolytic conversion of poly(silylenemethylene) to silicon carbide[J].Chemistry of Materials,1999(8):2038-2048. |
| [11] | 余兆菊,黄木河,李然,詹俊英,何国梅,夏海平.偶氮二异丁腈引发液态聚碳硅烷的交联研究[J].硅酸盐学报,2009(08):1373-1377. |
| [12] | 潘祖仁.高分子化学[M].北京:化学工业出版社,2003:17-34. |
| [13] | 韩常玉,冉祥海,刘浩,张坤玉,庄宇钢,董丽松,陈珊,于丹.过氧化物引发交联聚ε-己内酯的研究[J].高分子学报,2007(01):47-52. |
| [14] | Bouillon E;Langlais R;Pailler R et al.[J].Journal of Materials Science,1991,26(05):1333-1345. |
| [15] | ZHENG Chun-man;LI Xiao-dong;WANG Hao .Thermal stability and curing kinetics of polycarbosilane fibers[J].Transactions of Nonferrous Metals Society of China,2006(1):44-48. |
| [16] | Maddocks AR;Hook JM;Stender H;Harris AT .Heterogeneously catalysed crosslinking of polycarbosilane with divinylbenzene[J].Journal of Materials Science,2008(8):2666-2674. |
| [17] | Hasegawa Y;Okamura K .[J].Journal of Materials Science,1983,18:3633-3648. |
| [18] | Bouillon E;Mocaer D;Villeneuve J F et al.[J].Journal of Materials Science,1991,26:1517-1530. |
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