• image 01
    Volume 1, No.1, 2012
  • image 02
    Volume 1, No.2, 2012
  • image 01
    Volume 1, No.3, 2012
  • image 02
    Volume 2, No.1, 2013
  • image 02
    Volume 2, No.2, 2013
  • image 02
    Volume 2, No.S1, 2013
  • image 02
    Volume 2, No.3, 2013
  • image 02
    Volume 2, No.4, 2013
  • image 02
    Volume 3, No.1, 2014
  • image 02
    Volume 3, No.2, 2014
  • Volume 3, No3
    Volume 3, No.3, 2014
  • Volume 3, No4
    Volume 3, No.4, 2014
  • Volume 4, No1
    Volume 4, No.1, 2015
  • Volume 4, No2
    Volume 4, No.2, 2015
  • Volume 4, No3
    Volume 4, No.3, 2015
  • Volume 4, No4
    Volume 4, No.4, 2015
  • Volume 5, No1
    Volume 5, No.1, 2016
  • image 01
  • image 02
  • Login|Register

  • HomeTable of ContentsList of ArticlesAbstract

    Chem Sci Trans., 2016, 5(4),  pp 1096-1099  

    DOI:10.7598/cst2016.1311

    Research Article

    Synthesis, Structural Studies on Ni-Zn Ferrite by Solid State Reaction Method

  • G.PAVAN KUMAR* VEMURI RAGHAVENDRA and CH.PRAVEEN BABU
  • Advanced Analytical Laboratory, Andhra University, Visakhapatnam, India
    Department of Engineering Physics, AUCE (A), Andhra University, India
    Department of Physics, Andhra University, Visakhapatnam, India

    • Abstract

    Nix Zn1-xFe2O4 (x=0.50) have been synthesized by solid state reaction technique. X-ray powder diffraction patterns revealed that the single-phase cubic structure. The observations reflections are (220), (311), (222), (400), (422), (511) and (440). The average particle size is 40 nm. The lattice constant is 8.3715 Å. SEM analysis reveals detailed information about ceramic surface texture, grain sizes and shapes and grain boundaries. The average grain size is found to be 0.54 μm.

    Keywords

    Ni-Zn, Solid State, Spinel, SEM, X-Ray diffraction

    HISTORY

  • Received 11 August 2016
  • Accepted 3 September 2016

    • Author's Email

  • pavan.phy@gmail.com
  • Indexing Metadata
  • How to cite item
  • Review Policy
  • Rights & Permissions
  • Citation Alert
  • Order Reprints

    • This article has been viwed 1799 times

      

    Citations for this article 0

      

    No Citations