MAGNETIC PROPERTIES OF IRON-NITRIDE-ALUMINA NANOCOMPOSITE MATERIALS PREPARED BY HIGH-ENERGY BALL MILLING

机译：高能球磨制备的铁 - 氮化物 - 氧化铝纳米复合材料的磁性

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The structural and magnetic properties of the granular iron nitride-alumina composite materials, (Fe_xN)_(0.2)(Al_2O_3)_(0.8) and (Fe_xN)_(0.6)(Al_2O_3)_(0.4), fabricated using high-energy ball milling have determined using x-ray diffraction, transmission electron microscopy, and magnetization measurements. The coercive fields as high as 325 and 110 Oe are obtained for (Fe_xN)_(0.2)(Al_2O_3)_(0.8) at 5 and 300 K, respectively; the increase the coercive field upon cooling indicates the presence of small superparamagnetic particles. The coercive field increases with milling time because of the reduced particle size. The saturation magnetization decreases with increased milling because of the increased superparamagnetic fraction.

机译：颗粒铁氮化物 - 氧化铝复合材料的结构和磁性，（Fe_XN）_（0.2）（Al_2O_3）_（0.8）和（Fe_XN）_（0.6）（AL_2O_3）_（0.4），使用高能制造球磨已经使用X射线衍射，透射电子显微镜和磁化测量确定。在5和300k分别获得高达325和110 OE的矫顽块（Fe_XN）_（Al_2O_3）_（0.8）;冷却时增加矫顽磁场表明存在小超顺磁性颗粒。由于粒径降低，矫顽场随着铣削时间而增加。由于超顺磁性级分的增加，饱和磁化率随着铣削而增加而降低。

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《Annual international conference on composites engineering》|2002年||共2页
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S. R. Mishra; S. Roy; N. Ali; A. Vianno;
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4. MAGNETIC PROPERTIES OF IRON-NITRIDE-ALUMINA NANOCOMPOSITE MATERIALS PREPARED BY HIGH-ENERGY BALL MILLING [C] . S. R. Mishra, S. Roy, N. Ali, Ninth Annual International Conference on Composites Engineering ICCE/9 Jul 1-6, 2002 San Diego, California . 2002

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机译：高能球磨制备的氮化铁-氧化铝纳米复合材料的磁性

MAGNETIC PROPERTIES OF IRON-NITRIDE-ALUMINA NANOCOMPOSITE MATERIALS PREPARED BY HIGH-ENERGY BALL MILLING

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