TY - CONF N1 - cited By 6; Conference of 3rd International Conference on Materials Engineering and Science, IConMEAS 2020 ; Conference Date: 28 December 2020 Through 30 December 2020; Conference Code:168222 AV - none Y1 - 2021/// TI - Investigate the effect of process parameters of magnetic inductively assisted spark plasma sintering (SPS) of iron oxide (Fe3O4) on microstructure behaviour - Part i KW - Grain growth; Grain refinement; Grain size and shape; Liquid metals; Magnetic fields; Magnetite; Magnetoplasma; Microstructure KW - Electrical and mechanical properties; External magnetic field; Grains refinement; Jet milling; Magnetic field parallel; Magnetic-field; Novel methods; Process parameters; Sintering process; Spark-plasma-sintering KW - Spark plasma sintering SN - 22147853 SP - 2106 PB - Elsevier Ltd A1 - Mohammed, H.G. A1 - Albarody, T.M.B. A1 - Mustapha, M. A1 - Sultan, N.M. A1 - Al-Jothery, H.K.M. VL - 42 EP - 2112 UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85104031111&doi=10.1016%2fj.matpr.2020.12.293&partnerID=40&md5=bc3d3f0469b54a7492562b40efa54487 N2 - A new magnetically assisted spark plasma sintering as a novel method of adding a continuous intensive magnetic field during the sintering process was briefly introduced as an alternative method of traditional SPS in which the sintering process passed through several processes started with jet milling, aligning, densifying, and then ended up with sintering during the production of a material with excellent magnetic, electrical, and mechanical properties. Furthermore, the use of an external magnetic field parallel with the sintering process leads to a shortening of these processes in addition to driving the molten metal in a certain way for grain refinement and grain re-orientated, resulted in the reduction of porosities and cavities. In this paper (Part I) Iron oxide (Fe3O4) nanopowder has been characterized to study the sintering process's effect on microstructure behavior using FESEM, XRD, XPS, and VSM. Based on the results obtained, Fe3O4has cubic shaped particles with an average size of 100-200nm, and the indexed peaks are (1 1 1), (2 2 0), (3 1 1), (2 2 2), (4 0 0), (4 2 2), (5 1 1), and (4 0 0), which confirmed with the standard. © 2021 Elsevier Ltd. All rights reserved. ID - scholars15810 ER -