Revealing the Nature of Melt Pool Boundaries in Additively Manufactured Stainless Steel by Nano‐Sized Modulation

Additively manufactured (AM) 316L SS manufactured by laser powder bed fusion (L-PBF) and wrought 316L SS were subjected to sensitization heat treatments at 700 °C up to 100 hours. Using two evaluation methods, Double loop electrochemical potentiokinetic reactivation (DL-EPR) and ditching tests, degree of sensitization (DOS) and intergranular corrosion (IGC) susceptibility was evaluated. It was found that the wrought samples showed slightly lower IGC susceptibility compared to their AM counterpart. DOS and IGC attack increased with sensitization time for all samples. Dislocation cellular structures were found to have little to no impact on DOS and IGC for the AM samples. Sensitized at 100 hours, the AM sample showed significant Cr depletion along high angle grain boundaries (12.35 wt% on average) and exhibited Cr carbide precipitation. Mo rich particles along grain boundaries were also observed. The DL-EPR test attacks the surface oxide film and grain boundaries while the ditching test attacks the melt pool boundaries and grain boundaries (IGC and pitting). Changes to the DL-EPR and ditching standards for AM application have been proposed in this work.

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Revealing the Nature of Melt Pool Boundaries in Additively Manufactured Stainless Steel by Nano‐Sized Modulation

Cited by 3 publications

References 48 publications

Inter-melt pool corrosion and repassivation of SS316L stainless steel processed by laser powder bed fusion

Inter-melt pool corrosion and repassivation of SS316L stainless steel processed by laser powder bed fusion

Effect of processing parameters and thermal history on microstructure evolution and functional properties in laser powder bed fusion of 316L

Sensitization of 316L Stainless Steel made by Laser Powder Bed Fusion Additive Manufacturing

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