Influence of Spark Plasma Sintering Conditions on the Sintering and Functional Properties of an Ultra-Fine Grained 316L Stainless Steel Obtained from Ball-Milled Powder - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Materials Science and Engineering: A Année : 2016

Influence of Spark Plasma Sintering Conditions on the Sintering and Functional Properties of an Ultra-Fine Grained 316L Stainless Steel Obtained from Ball-Milled Powder

Résumé

In this work, 316L samples with submicrometric grain size were sintered by spark plasma sintering. To this aim, 316L powder was first ball-milled with different conditions to obtain nanostructured powder. The process control agent quantity and milling time were varied to check their influence on the crystallite size of milled powder. Samples were then sintered by spark plasma sintering using different sets of sintering parameters (temperature, dwell time and pressure). For each sample, grain size and density were systematically measured in order to investigate the influence of the sintering process on these two key microstructure parameters. Results show that suitable ball-milling and subsequent sintering can be employed to obtain austenitic stainless steel samples with grain sizes in the nanometer range with porosity lower than 3%. However, ball-milling and subsequent sintering enhance chromium carbides formation at the sample surface in addition to intragranular and intergranular oxides in the sample as revealed by X-ray diffraction and transmission electron microscopy. It has been shown that using Boron nitride together with graphite foils to protect the mold from powder welding prevent such carbide formation. For mechanical properties, results show that the grain size refinement strongly increases the hardness of the samples without deviation from Hall-Petch relationship despite the oxides formation. For corrosion resistance, grain sizes lower than a few micrometers involve a strong decrease in the pitting potential and a strong increase in passivation current. As a consequence, spark plasma sintering can be considered as a promising tool for ultra-fine grained austenitic stainless steel.
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Dates et versions

hal-01954247 , version 1 (13-12-2018)

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Clément Keller, K. Tabalaiev, G. Marnier, J. Noudem, Xavier Sauvage, et al.. Influence of Spark Plasma Sintering Conditions on the Sintering and Functional Properties of an Ultra-Fine Grained 316L Stainless Steel Obtained from Ball-Milled Powder. Materials Science and Engineering: A, 2016, 665, pp.125-134. ⟨10.1016/j.msea.2016.04.039⟩. ⟨hal-01954247⟩
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