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One dimensional wormhole corrosion in metals

Author

Listed:
  • Yang Yang

    (National Center for Electron Microscopy, Molecular Foundry, Lawrence Berkeley National Laboratory
    The Pennsylvania State University)

  • Weiyue Zhou

    (Department of Nuclear Science and Engineering, Massachusetts Institute of Technology)

  • Sheng Yin

    (Materials Sciences Division, Lawrence Berkeley National Laboratory)

  • Sarah Y. Wang

    (University of California)

  • Qin Yu

    (Materials Sciences Division, Lawrence Berkeley National Laboratory)

  • Matthew J. Olszta

    (Energy and Environment Directorate, Pacific Northwest National Laboratory)

  • Ya-Qian Zhang

    (University of California)

  • Steven E. Zeltmann

    (University of California)

  • Mingda Li

    (Department of Nuclear Science and Engineering, Massachusetts Institute of Technology)

  • Miaomiao Jin

    (The Pennsylvania State University)

  • Daniel K. Schreiber

    (Energy and Environment Directorate, Pacific Northwest National Laboratory)

  • Jim Ciston

    (National Center for Electron Microscopy, Molecular Foundry, Lawrence Berkeley National Laboratory)

  • M. C. Scott

    (National Center for Electron Microscopy, Molecular Foundry, Lawrence Berkeley National Laboratory
    University of California)

  • John R. Scully

    (University of Virginia)

  • Robert O. Ritchie

    (Materials Sciences Division, Lawrence Berkeley National Laboratory
    University of California)

  • Mark Asta

    (Materials Sciences Division, Lawrence Berkeley National Laboratory
    University of California)

  • Ju Li

    (Department of Nuclear Science and Engineering, Massachusetts Institute of Technology
    Department of Materials Science and Engineering, Massachusetts Institute of Technology)

  • Michael P. Short

    (Department of Nuclear Science and Engineering, Massachusetts Institute of Technology)

  • Andrew M. Minor

    (National Center for Electron Microscopy, Molecular Foundry, Lawrence Berkeley National Laboratory
    Materials Sciences Division, Lawrence Berkeley National Laboratory
    University of California)

Abstract

Corrosion is a ubiquitous failure mode of materials. Often, the progression of localized corrosion is accompanied by the evolution of porosity in materials previously reported to be either three-dimensional or two-dimensional. However, using new tools and analysis techniques, we have realized that a more localized form of corrosion, which we call 1D wormhole corrosion, has previously been miscategorized in some situations. Using electron tomography, we show multiple examples of this 1D and percolating morphology. To understand the origin of this mechanism in a Ni-Cr alloy corroded by molten salt, we combined energy-filtered four-dimensional scanning transmission electron microscopy and ab initio density functional theory calculations to develop a vacancy mapping method with nanometer-resolution, identifying a remarkably high vacancy concentration in the diffusion-induced grain boundary migration zone, up to 100 times the equilibrium value at the melting point. Deciphering the origins of 1D corrosion is an important step towards designing structural materials with enhanced corrosion resistance.

Suggested Citation

  • Yang Yang & Weiyue Zhou & Sheng Yin & Sarah Y. Wang & Qin Yu & Matthew J. Olszta & Ya-Qian Zhang & Steven E. Zeltmann & Mingda Li & Miaomiao Jin & Daniel K. Schreiber & Jim Ciston & M. C. Scott & John, 2023. "One dimensional wormhole corrosion in metals," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36588-9
    DOI: 10.1038/s41467-023-36588-9
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    References listed on IDEAS

    as
    1. Mary P. Ryan & David E. Williams & Richard J. Chater & Bernie M. Hutton & David S. McPhail, 2002. "Why stainless steel corrodes," Nature, Nature, vol. 415(6873), pages 770-774, February.
    2. Weiyue Zhou & Yang Yang & Guiqiu Zheng & Kevin B. Woller & Peter W. Stahle & Andrew M. Minor & Michael P. Short, 2020. "Proton irradiation-decelerated intergranular corrosion of Ni-Cr alloys in molten salt," Nature Communications, Nature, vol. 11(1), pages 1-7, December.
    3. Pierre-Antoine Geslin & Ian McCue & Bernard Gaskey & Jonah Erlebacher & Alain Karma, 2015. "Topology-generating interfacial pattern formation during liquid metal dealloying," Nature Communications, Nature, vol. 6(1), pages 1-8, December.
    4. Zhi Zhu & Daiwei Yu & Yang Yang & Cong Su & Yimeng Huang & Yanhao Dong & Iradwikanari Waluyo & Baoming Wang & Adrian Hunt & Xiahui Yao & Jinhyuk Lee & Weijiang Xue & Ju Li, 2019. "Gradient Li-rich oxide cathode particles immunized against oxygen release by a molten salt treatment," Nature Energy, Nature, vol. 4(12), pages 1049-1058, December.
    5. Mark E. Davis, 2002. "Ordered porous materials for emerging applications," Nature, Nature, vol. 417(6891), pages 813-821, June.
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    Cited by:

    1. Yang Yang & Sheng Yin & Qin Yu & Yingxin Zhu & Jun Ding & Ruopeng Zhang & Colin Ophus & Mark Asta & Robert O. Ritchie & Andrew M. Minor, 2024. "Rejuvenation as the origin of planar defects in the CrCoNi medium entropy alloy," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    2. Yafei Wang & Aeli P. Olson & Cody Falconer & Brian Kelleher & Ivan Mitchell & Hongliang Zhang & Kumar Sridharan & Jonathan W. Engle & Adrien Couet, 2024. "Radionuclide tracing based in situ corrosion and mass transport monitoring of 316L stainless steel in a molten salt closed loop," Nature Communications, Nature, vol. 15(1), pages 1-11, December.

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