材料研究学报  2006, Vol. 20 Issue (3): 311-318

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PF/MCM-41纳米复合材料的制备及其耐热性

李明天　 王娜　 魏薇　 张劲松

李明天; 王娜; 魏薇; 张劲松 . PF/MCM-41纳米复合材料的制备及其耐热性[J]. 材料研究学报, 2006, 20(3): 311-318.

摘要 参考文献 相关文章 Metrics 全文: PDF(1275 KB)   摘要: 采用原位聚合结合共混工艺制备了PF/MCM-41纳米复合材料,研究了耐热性.结果表明,当MCM-41粉的含量为20%时,PF/MCM-41纳米复合材料中MCM-41粉的分散性及有机-无机两相间的界面结合良好;与纯PF比较,复合材料的质量损失达到50%(质量分数)时的温度提高约70℃,分解结束时的温度提高约100℃.介孔MCM-41中的纳米级孔道能有效地限制其内树脂分子链的自由运动,是PF/MCM-41复合材料耐热性提高的机理.同时,其纳米级厚度的孔壁具有极好的耐热性和绝热性,在快速升温的条件下能延缓孔内树脂分子的热分解及分解产生的小分子产物的释放. Key words： 收稿日期: 1900-01-01      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 李明天 王娜 魏薇 张劲松 44.8K 链接本文: https://www.cjmr.org/CN/Y2006/V20/I3/311 1 M.S.Mamdouh,Through-thickness properties of TMCP steel.Journal of Offshore Mechanics and Arctic Engineer- ing,126,346(2004) 2 J.Sun,J.D.Boyd,Effect of thermomechanical processing on anisotropy of cleavage fracture stress in microalloyed linepipe steel.International Journal of Pressure Vessels and Piping,77,369(2000) 3 S.Kawaguchi,N.Hagiwara,T.Masuda,M.Toyoda,Eval- uation of leak-before-break(LBB)behavior for axially notched X65 and XS0 line pipes,Journal of Offshore Me- chanics and Arctic Engineering,126,350(2004) 4 LI Heilin,Developing pulse and prospect of oil and gas transmission pipe,Welded Pipe and Tube,27(6),1(2004) (李鹤林,油气输送钢管的发展动向与展望,焊管,27(6), 1(2004)) 5 G.M.Wilkowski,Y.Y.Wang,D.Rudland,Recent effect on characterizing propagation ductile fracture resistance of linepipe steels,Pipeline Technology(Amsterdam,Elsevier Scinece,2000)p.359 6 R.W.Hertzberg,Deformation and Fracture Mechanics of Engineering Materials,2nd Edition,(New York,John Wi- ley & Sons,1983)p.364 7 YANG Zheng,GUO Wanlin,HUO Chunyong,Fracture toughness of X70 pipeline steel at different temperatures. Acta Metallurgica Sinica,39(9),908(2003) (杨政,郭万林,霍春勇,X70管线钢不同温度下断裂韧性实验研究,金属学报,39(9),908(2003)) 8 W.L.Guo,H.R.Dong,M.X.Lu,X.W.Zhao,The coupled ef- fects of thickness and delamination on cracking resistance of X70 pipeline steel,International Journal of Pressure Vessels and Piping,79(6),403(2002) 9 GB 2038-1,Metallic Materials-Standard Test Method for J_(IC),a Measure Fracture Toughness,1991 (GB 2038-91,金属材料延性断裂韧度J_(IC)试验方法,1991) 10 Z.H.Li,W.L.Guo,Z.B.Kuang,Three-dimensional elastic stress fields near notches in finite thickness plates.Inter- national Journal of Solids and Structures,37,7617(2000) 11 A.Kotousov,C.H.Wang,Three-dimensional stress con- straint in an elastic plate with a notch.International Jour- nal of Solids and Structures,39,4311(2002) 12 S.W.Kwon,C.T.Sun,Characteristics of three-dimensional stress fields in plates with a through-the-thickness crack, International Journal of Fracture,104(3),291(2000) 13 W.L.Guo,Recent advance in three-dimensional fracture mechanics,Key Engineering Materials,183(Ⅰ),193(2000) 14 GB 4161-84,Standard Test Method for Plane-Strain Fracture Toughness of Metallic Materials,1984 (GB 4161-84,金属材料平面应变断裂韧性K_(IC)试验方法, 1984) 15 GB/T 229-1994,Metallic Materials-Charpy Notch Impact Test.1994 (GB/T 229-1994,金属夏比缺口冲击试验方法．1994) 16 API RP 5L3-1996,Recommended Practice for Conduct- ing Drop-Weight Tear Tests on Line Pipe.American Petroleum Institute,1996. No related articles found! Viewed Full text Abstract Cited   Shared      Discussed