Penghui Lei scite author profile

This paper studied the release of iodine from lead vanado-iodoapatite (I-APT, Pb 9.85 (VO 4) 6 I 1.7), a potential nuclear waste form for the radioactive waste element of I-129, which can be enhanced when crevice corrosion of stainless steel (SS) occurring nearby. Reference corrosion studies of I-APT were performed in different bulk solutions including DI water, 0.6 M and 6 M NaCl, and 0.1 M HNO 3 without metal crevice corrosion interactions. The localized enrichment of Cl − , one of the major consequences of SS crevice corrosion, was found to be the decisive factor that led to the enhanced release of iodine. A surface alteration layer consisting of a mixture of nanocrystalline I-APT and Cl-rich apatite (Cl-APT) formed on I-APT surface. Meanwhile, large Cl-APT crystals formed at the crevice mouth on the I-APT surface. This study reveals a new near-field corrosion mechanism for ceramic waste forms when they are exposed to aggressive local corrosive conditions created by the electrochemical reactions of nearby metals. The insight gained in this study could be beneficial for a more accurate prediction of waste form degradation.

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Quasi-static kinematics model for motion errors of closed hydrostatic guideways in ultra-precision machining

Shi

Wang

Peng

et al. 2021

Precision Engineering

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Chemical durability and surface alteration of lanthanide zirconates (A2Zr2O7: A = La-Yb)

Yang

Wang

Lei

et al. 2021

Journal of the European Ceramic Society

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Penghui Lei

Self-accelerated corrosion of nuclear waste forms at material interfaces

A systematic study of lanthanide titanates (A2Ti2O7) chemical durability: corrosion mechanisms and control parameters

Corrosion interactions between stainless steel and lead vanado-iodoapatite nuclear waste form part II

Quasi-static kinematics model for motion errors of closed hydrostatic guideways in ultra-precision machining

Chemical durability and surface alteration of lanthanide zirconates (A2Zr2O7: A = La-Yb)

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