Characterisation of Mn0.63Zn0.37Fe2O4 powders after intensive milling and subsequent thermal treatment-Reference-Cited by-同舟云学术

Characterisation of Mn0.63Zn0.37Fe2O4 powders after intensive milling and subsequent thermal treatment

Published:2017 Issue:4 Volume:49 Page:455-467
ISSN:0350-820X
Container-title:Science of Sintering
language:en
Short-container-title:SCI SINTER

Author:

Labus Nebojsa¹^ORCID,Vasiljevic Zorka¹,Aleksic Obrad¹,Lukovic Miloljub¹,Markovic Smilja¹^ORCID,Pavlovic Vladimir¹,Mentus Slavko²^ORCID,Nikolic Maria³

Affiliation:

1. Institute of Technical Sciences of SASA, Beograd

2. Faculty of Physical Chemistry, Belgrade + Serbian Academy of Sciences and Arts, Belgrade

3. Institute for Multidisciplinary Research, Beograd

Abstract

Commercial Mn-Zn powder (Mn0.63Zn0.37Fe2O4, 93 wt. % and Fe2O3 7 wt. %) was milled 0.5, 1, 2 and 4 hours in a planetary ball mill. The goal was to observe intensive milling influences on oxidation and reduction processes that will happen during subsequent heating. Powders were characterized with XRD, SEM and particle seizer. Subsequent heating was monitored on TGA/DTA in an air atmosphere. After compaction of the milled powders, sintering was also performed in a dilatometric device. Sintered specimens were characterized micro structurally with SEM on a fresh breakage. Obtained differential TGA diagrams suggest intensive changes during prolonged milling of the oxidation kinetics on heating. Ferrite powders changed with milling as well as with second run heating were characterized to enable determination of the potentially best ratio of milling and heating to be applied to obtain the desired microstructure.

Funder

Ministry of Education, Science and Technological Development of the Republic of Serbia

Publisher

National Library of Serbia

Subject

Materials Chemistry,Metals and Alloys,Condensed Matter Physics,Ceramics and Composites

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