ENHANCED SINTERING OF AN FE-NI-P COATED COMPOSITE POWDER PREPARED BY ELECTROLESS NICKEL-PLATING

An Fe-8.2%Ni-6.0 % P powder was prepared by electroless nickel plating on a carbonyl iron powder, where phosphorous appeared as a contaminan t of the plating process. Because of the high phosphorous concentratio n, persistent liquid phase sintering was effective at temperatures hig her than 1000 degrees C. The sintered microstructure was dramatically different from the conventional approaches, where a low concentration of phosphorous was added in the form of Fe3P. Sintering the alloy at a temperature as low as 1050 degrees C for 30 min yielded a sintered de nsity of 98.6% theoretical and rounded grains having an average grain size of 53 mu m. The rounded grains were surrounded by a large volume fraction of intergranular (Fe,Ni)(3)P phase, arising from the high pho sphorous concentration, which slightly deteriorated the magnetic satur ation but significantly increased the electrical resistivity of the al loy. Generally speaking, the magnetic saturation of the sintered alloy was improved with respect to the iron-phosphorus, iron-nickel, or iro n-silicon alloys fabricated by powder processing.