Applying laboratory methods for durability assessment of vitrified material to archaeological samples

Lorena Nava-Farias; James J. Neeway; Michael J. Schweiger; José Marcial; Nathan L. Canfield; Carolyn I. Pearce; David K. Peeler; Edward P. Vicenzi; David S. Kosson; Rossane C. Delapp; John S. McCloy; Sam A. Walling; Clare L. Thorpe; Claire L. Corkhill; Russell J. Hand; Rolf Sjöblom; Albert A. Kruger

doi:10.1038/s41529-021-00204-2

npj Materials Degradation (Nov 2021)

Applying laboratory methods for durability assessment of vitrified material to archaeological samples

Lorena Nava-Farias,
James J. Neeway,
Michael J. Schweiger,
José Marcial,
Nathan L. Canfield,
Carolyn I. Pearce,
David K. Peeler,
Edward P. Vicenzi,
David S. Kosson,
Rossane C. Delapp,
John S. McCloy,
Sam A. Walling,
Clare L. Thorpe,
Claire L. Corkhill,
Russell J. Hand,
Rolf Sjöblom,
Albert A. Kruger

Affiliations

Lorena Nava-Farias: Energy and Environment Directorate, Pacific Northwest National Laboratory
James J. Neeway: Energy and Environment Directorate, Pacific Northwest National Laboratory
Michael J. Schweiger: US Department of Energy, Office of River Protection
José Marcial: Energy and Environment Directorate, Pacific Northwest National Laboratory
Nathan L. Canfield: Energy and Environment Directorate, Pacific Northwest National Laboratory
Carolyn I. Pearce: Energy and Environment Directorate, Pacific Northwest National Laboratory
David K. Peeler: Energy and Environment Directorate, Pacific Northwest National Laboratory
Edward P. Vicenzi: Smithsonian Institution, Museum Conservation Institute
David S. Kosson: School of Engineering, Vanderbilt University
Rossane C. Delapp: School of Engineering, Vanderbilt University
John S. McCloy: School of Mechanical and Materials Engineering, Washington State University
Sam A. Walling: Department of Materials Science & Engineering, The University of Sheffield
Clare L. Thorpe: Department of Materials Science & Engineering, The University of Sheffield
Claire L. Corkhill: Department of Materials Science & Engineering, The University of Sheffield
Russell J. Hand: Department of Materials Science & Engineering, The University of Sheffield
Rolf Sjöblom: Luleå University of Technology
Albert A. Kruger: US Department of Energy, Office of River Protection

DOI: https://doi.org/10.1038/s41529-021-00204-2
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 15

Abstract

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Abstract Laboratory testing used to assess the long-term chemical durability of nuclear waste forms may not be applicable to disposal because the accelerated conditions may not represent disposal conditions. To address this, we examine the corrosion of vitrified archeological materials excavated from the near surface of a ~1500-year old Iron Age Swedish hillfort, Broborg, as an analog for the disposal of vitrified nuclear waste. We compare characterized site samples with corrosion characteristics generated by standard laboratory durability test methods including the product consistency test (PCT), the vapor hydration test (VHT), and the EPA Method 1313 test. Results show that the surficial layer of the Broborg samples resulting from VHT displays some similarities to the morphology of the surficial layer formed over longer timescales in the environment. This work provides improved understanding of long-term glass corrosion behavior in terms of the thickness, morphology, and chemistry of the surficial features that are formed.

Published in npj Materials Degradation

ISSN: 2397-2106 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.nature.com/npjmatdeg/

About the journal