Please use this identifier to cite or link to this item:
Title: Optimization of Sintering Parameters of 316L Stainless Steel for In-Situ Nitrogen Absorption and Surface Nitriding Using Response Surface Methodology
Authors: Ali, S.
Rani, A.M.A.
Mufti, R.A.
Ahmed, S.W.
Baig, Z.
Hastuty, S.
Razak, M.A.
Aliyu, A.A.
Issue Date: 2020
Publisher: Processes
Citation: Ali, S., Rani, A.M.A., Mufti, R.A., Ahmed, S.W., Baig, Z., Hastuty, S., Razak, M.A.A., Aliyu, A.A.A. Optimization of sintering parameters of 316L stainless steel for in-situ nitrogen absorption and surface nitriding using response surface methodology (2020) Processes, 8 (3). DOI: 10.3390/pr8030297
Abstract: This research investigates the simultaneous sintering and surface nitriding of 316L stainless steel alloy using powder metallurgy method. The influence of sintering temperature and dwell time are investigated for maximum nitrogen absorption, densification and increased microhardness using response surface methodology (RSM). In this study, 316L stainless steel powder was compacted at 800 MPa and sintered at two different temperatures of 1150 and 1200 ◦C with varying dwell times of 1, 3, 5 and 8 h in nitrogen atmosphere. The sintered compacts were then characterized for their microstructure, densification, microhardness, and nitrogen absorption. The results revealed that increased dwell time assisted nitrogen to diffuse into stainless steel matrix along with the creation of nitride layer onto the sample surface. The microhardness and density also increased with increasing dwell time. A densification of 7.575 g/cm3 and microhardness of 235 HV were obtained for the samples sintered at 1200 ◦C temperature with 8 h dwell time. The simultaneous sintering and surface nitriding technique developed in this research work can help in improving corrosion resistance of this material and controlling leaching of metal ions for its potential use in biomedical applications.  
Description: This article is index by Scopus
Appears in Collections:Conference Papers

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.