MICROSTRUCTURE AND MAGNETIC PROPERTIES OF NANOSTRUCTURED Al2O3-20vol%Fe70Co30 COMPOSITE PREPARED BY HIGH ENERGY MECHANICAL MILLING
Al2O3-20vol%Fe70Co30 composite powders have been prepared by high energy ball milling a mixture of Al_2O_3 powder and Fe70Co30 alloy powder. The Fe70Co30 alloy powder was also prepared by mechanical alloying of Fe and Co powders using the same process. The effects of milling duration from 8 to 48 hours on microstructure and magnetic properties of the nanostructured composite powders have been studied by means of X-ray Diffractometry (XRD), scanning electron microscopy (SEM) and vibrating sample magnetometry (VSM). It was found that the nanostructured composite powder particles with irregular shapes and Fe70Co30 alloy particles being embedded in them formed after 8 hours of milling. The average grain size of the Al2O3 matrix reduced drastically to less than 18nm after 16 hours of milling. On the other hand, the embedded alloy particles demonstrated almost unchanged average grain size in the range of 14-15nm. Magnetic properties of the powder compacts at room temperature were measured from hysteresis curves, and show strong dependence of the milling time, with the coercivity increasing from 67.1 up to 127.9kOe with increasing the milling time from 8 to 48 hours. The possible microstructural reasons for this dependence are discussed.
Ceramic-alloy composite high energy mechanical milling magnetic properties nanostructure
MASLEEYATIYUSOP DELIANG ZHANG MARCUS WILSON NICK STRICKLAND
Waikato Centre for Advanced Materials (WaiCAM), Department of Engineering, The University of Waikato Industrial Research Ltd, PO Box 3130, Lower Hutt 5040, New Zealand
国际会议
第五届先进材料与加工国际会议(Fifth International Conference on Advanced Materials and Processing ICAMP-5)
哈尔滨
英文
1383-1388
2008-09-03(万方平台首次上网日期,不代表论文的发表时间)