The localized corrosion of laser surface melted (LSM) 316L stainless steel is investigated by a combination of potentiodynamic anodic polarization in 0.1 M HCl and microscopic investigation of the initiation and propagation of localized corrosion. The pitting potential of LSM 316L is significantly lower than the pitting potential of wrought 316L. The LSM microstructure is highly banded as a consequence of the high laser power density and high linear energy density. The bands are composed of zones of changing modes of solidification, cycling between very narrow regions of primary austenite solidification and very wide regions of primary ferrite solidification. Pits initiate in the outer edge of each band where the mode of solidification is primary austenite plane front solidification and primary austenite cellular solidification. The primary austenite regions have low chromium concentration (and possibly low molybdenum concentration), which explains their susceptibility to pitting corrosion. The ferrite is enriched in chromium, which explains the absence of pitting in the primary ferrite regions. The presence of the low chromium regions of primary austenite solidification explains the lower pitting resistance of LSM 316L relative to wrought 316L. The influence of banding on localized corrosion is applicable to other rapidly solidified processes such as additive manufacturing.
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1 September 2021
Research Article|
June 09 2021
Effect of Microstructural Bands on the Localized Corrosion of Laser Surface-Melted 316L Stainless Steel
Yoon Hwa;
Yoon Hwa
*Department of Materials Science and Engineering, University of California, Berkeley, California 94720.
***School of Electrical, Computer and Energy Engineering, Arizona State University, Tempe, Arizona, 85281.
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Christopher S. Kumai;
Christopher S. Kumai
*Department of Materials Science and Engineering, University of California, Berkeley, California 94720.
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Nancy Yang;
Nancy Yang
**Sandia National Laboratory, Livermore, California 94550.
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Joshua K. Yee;
Joshua K. Yee
**Sandia National Laboratory, Livermore, California 94550.
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Thomas M. Devine
Thomas M. Devine
‡
*Department of Materials Science and Engineering, University of California, Berkeley, California 94720.
‡Corresponding author: [email protected].
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CORROSION (2021) 77 (9): 1014–1024.
Citation
Yoon Hwa, Christopher S. Kumai, Nancy Yang, Joshua K. Yee, Thomas M. Devine; Effect of Microstructural Bands on the Localized Corrosion of Laser Surface-Melted 316L Stainless Steel. CORROSION 1 September 2021; 77 (9): 1014–1024. doi: https://doi.org/10.5006/3779
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