光谱学与光谱分析 |
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Characterization of Inorganic Nano-Alundum Composite Film of Polyimide |
ZHOU Hao-ran,ZHAO De-ming,LIU Xin-gang,LIN Fei,FAN Yong |
College of Materials Science and Engineering,Harbin University of Science and Technology,Harbin 150040,China |
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Abstract The key to the study on the regularity about the mechanical,thermology and electricities property of the inorganic nano-mingled organic composition thin film is to understand the incorporated quantity,the particle size and distribution of nano-inorganic matter in the membrane quickly and accurately. In the present paper,the chemical structure,surface morphology and the actual content of nano-Al2O3 of the nano Al2O3-composite film of polyimide were characterized by X-ray atomic fluorescent spectroscopy(XRF),Fourier transform infrared spectroscopy (FTIR),scanning electron microscopy (SEM) and atomic forced microscope (AFM). The results are that the organic phase of PI and the inorganic phase of Al2O3 formed a complex composite hybrid system of bond-to-bond pattern,the nano-Al2O3 particles in the film of PI are dispersed homogeneously,and the diameter of the particle is smaller than 50 nm;the weight content of Al2O3 is 7.9% by XRF. The approach we used is an effective way of analyzing the inorganic component of the organic composite film materials doped with the inorganic nano-phase materials with the merits of no pretreatment,no fed charge (for analysis of insulation materials),no-contagion,no destruction,high speed and high accuracy,etc.
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Received: 2006-11-08
Accepted: 2007-02-16
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Corresponding Authors:
ZHOU Hao-ran
E-mail: haoran1963@hotmail.com
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[1] Kioul A,Mascia L. Jounral of Non-Crystallline Solids,1994,175(2-3):169. [2] Southward R E,Thompson S D,Thompson D W,et al. Chem. Mater.,1998,10:486. [3] Agag T,Koga T,Takeichi T. Polymer,2001,42:3399. [4] YAN Hong-xia,LIANG Guo-zheng,MA Xiao-yan,et al (颜红侠,梁国正,马晓燕,等). Polymer Bulletin(高分子通报),2003,(6):28. [5] YU Kun,YU Xian-jin(禹 坤,于先进). Journal of the Shandong University of Science and Technology(Natural Science Edition)(山东理工大学学报·自然科学版),2006,20(4):74. [6] XU Guo-cai(徐国才). The Nano-Composite Material(纳米复合材料). Beijing: Mechanical Industry Press(北京:机械工业出版社),2001. 98. [7] HAN Xiao-yuan,ZHUO Shang-jun,WANG Pei-ling(韩小元,卓尚军,王佩玲). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(1): 159. [8] WU Da-qing(吴大青). Materials Science Technology(材料科学与工艺),2006,4:439. [9] LUO Li-qiang(罗立强). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2006,26(1):189. [10] Huang T C. X-ray Spectrometry,1991,20: 29. |
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