Phase formation of manganese ferrite prepared by co-precipitation method is studied at different annealing temperatures. It is shown that the spinel phase is formed by quenching only in inert gas. XRD patterns show that the background picks fall in intensity by increasing annealing temperature and the single phase is achieved by magnetic separation.
B. Nasr, , J. Amighian, and M. Mozaffar, . (2019). The effect of temperature and atmosphere on spinel phase formation of nano-manganese ferrite. Iranian Journal of Physics Research, 6(1), 49-52.
MLA
B. Nasr, , , J. Amighian, , and M. Mozaffar, . "The effect of temperature and atmosphere on spinel phase formation of nano-manganese ferrite", Iranian Journal of Physics Research, 6, 1, 2019, 49-52.
HARVARD
B. Nasr , J. Amighian , M. Mozaffar . (2019). 'The effect of temperature and atmosphere on spinel phase formation of nano-manganese ferrite', Iranian Journal of Physics Research, 6(1), pp. 49-52.
CHICAGO
B. Nasr, J. Amighian and M. Mozaffar, "The effect of temperature and atmosphere on spinel phase formation of nano-manganese ferrite," Iranian Journal of Physics Research, 6 1 (2019): 49-52,
VANCOUVER
B. Nasr , J. Amighian , M. Mozaffar . The effect of temperature and atmosphere on spinel phase formation of nano-manganese ferrite. Iranian Journal of Physics Research. 2019;6(1):49-52 (In Persian).
