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QIAN Fang-zhen, JIANG Ke-yu, RUAN Jian-zhong. Fe/ PZFE Nanometer Composites by High Energy Ball Milling[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 56-60.
Citation:
QIAN Fang-zhen, JIANG Ke-yu, RUAN Jian-zhong. Fe/ PZFE Nanometer Composites by High Energy Ball Milling[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 56-60.
QIAN Fang-zhen, JIANG Ke-yu, RUAN Jian-zhong. Fe/ PZFE Nanometer Composites by High Energy Ball Milling[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 56-60.
Citation:
QIAN Fang-zhen, JIANG Ke-yu, RUAN Jian-zhong. Fe/ PZFE Nanometer Composites by High Energy Ball Milling[J]. Journal of East China Normal University (Natural Sciences), 2004, (1): 56-60.
Fe/PTFE nanometer compound was prepared by high energy ball milling. Firstly, PTFE was milled for 50h,90h,120h ,then Fe/ PTFE mixture was milled for 700h. The components were indentified by 57Fe Mossbauer spectroscopy. The Mossbauer effect studies show that the spectrum includes not only bothsextets of bulk and interface of a-Fe ,it indicates the size of particle Fe is in the order of nanometer, but also one singlet for Fe3+, one doublet for Fe2+ , they corresponds to FeF2 and FeF3 respectively. As milling time increases,the component of interface of a-Fe disappears, meantime, the Fe3C appears. The result shows that it is helpful to produce FeF3 as PTFE was initially milled.