Hydrothermal corrosion of silicon carbide joints without radiation

Takaaki Koyanagi; Yutai Katoh; Kurt A. Terrani; Young Jin Kim; James O. Kiggans; Tatsuya Hinoki

doi:10.1016/j.jnucmat.2016.09.027

Hydrothermal corrosion of silicon carbide joints without radiation

Takaaki Koyanagi
, Yutai Katoh
, Kurt A. Terrani
, Young Jin Kim
, James O. Kiggans
, Tatsuya Hinoki

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Hydrothermal corrosion of four types of the silicon carbide (SiC) to SiC plate joints were investigated under pressurized water reactor and boiling water reactor relevant chemical conditions without irradiation. The joints were formed by metal diffusion bonding using molybdenum or titanium interlayer, reaction sintering using Ti[sbnd]Si[sbnd]C system, and SiC nanopowder sintering. Most of the joints withstood the corrosion tests for five weeks. The recession of the SiC substrates was limited. Based on the recession of the bonding layers, it was concluded that all the joints except for the molybdenum diffusion bond are promising under the reducing environments without radiation. The SiC nanopowder sintered joint was the most corrosion tolerant under the oxidizing environment among the four joints.

Original language	English
Pages (from-to)	226-233
Number of pages	8
Journal	Journal of Nuclear Materials
Volume	481
DOIs	https://doi.org/10.1016/j.jnucmat.2016.09.027
State	Published - Dec 1 2016

Funding

This work was sponsored by the U.S. Department of Energy , Office of Nuclear Energy, for Advanced Fuel Campaign of the Fuel Cycle Research & Development program under contact DE-AC05-00OR22725 with Oak Ridge National Laboratories managed by UT-Battelle, LLC. C. Ang provided useful comments on the manuscript.

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title = "Hydrothermal corrosion of silicon carbide joints without radiation",

abstract = "Hydrothermal corrosion of four types of the silicon carbide (SiC) to SiC plate joints were investigated under pressurized water reactor and boiling water reactor relevant chemical conditions without irradiation. The joints were formed by metal diffusion bonding using molybdenum or titanium interlayer, reaction sintering using Ti[sbnd]Si[sbnd]C system, and SiC nanopowder sintering. Most of the joints withstood the corrosion tests for five weeks. The recession of the SiC substrates was limited. Based on the recession of the bonding layers, it was concluded that all the joints except for the molybdenum diffusion bond are promising under the reducing environments without radiation. The SiC nanopowder sintered joint was the most corrosion tolerant under the oxidizing environment among the four joints.",

author = "Takaaki Koyanagi and Yutai Katoh and Terrani, \{Kurt A.\} and Kim, \{Young Jin\} and Kiggans, \{James O.\} and Tatsuya Hinoki",

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doi = "10.1016/j.jnucmat.2016.09.027",

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T1 - Hydrothermal corrosion of silicon carbide joints without radiation

AU - Koyanagi, Takaaki

AU - Katoh, Yutai

AU - Terrani, Kurt A.

AU - Kim, Young Jin

AU - Kiggans, James O.

AU - Hinoki, Tatsuya

PY - 2016/12/1

Y1 - 2016/12/1

N2 - Hydrothermal corrosion of four types of the silicon carbide (SiC) to SiC plate joints were investigated under pressurized water reactor and boiling water reactor relevant chemical conditions without irradiation. The joints were formed by metal diffusion bonding using molybdenum or titanium interlayer, reaction sintering using Ti[sbnd]Si[sbnd]C system, and SiC nanopowder sintering. Most of the joints withstood the corrosion tests for five weeks. The recession of the SiC substrates was limited. Based on the recession of the bonding layers, it was concluded that all the joints except for the molybdenum diffusion bond are promising under the reducing environments without radiation. The SiC nanopowder sintered joint was the most corrosion tolerant under the oxidizing environment among the four joints.

AB - Hydrothermal corrosion of four types of the silicon carbide (SiC) to SiC plate joints were investigated under pressurized water reactor and boiling water reactor relevant chemical conditions without irradiation. The joints were formed by metal diffusion bonding using molybdenum or titanium interlayer, reaction sintering using Ti[sbnd]Si[sbnd]C system, and SiC nanopowder sintering. Most of the joints withstood the corrosion tests for five weeks. The recession of the SiC substrates was limited. Based on the recession of the bonding layers, it was concluded that all the joints except for the molybdenum diffusion bond are promising under the reducing environments without radiation. The SiC nanopowder sintered joint was the most corrosion tolerant under the oxidizing environment among the four joints.

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DO - 10.1016/j.jnucmat.2016.09.027

M3 - Article

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SN - 0022-3115

VL - 481

SP - 226

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JO - Journal of Nuclear Materials

JF - Journal of Nuclear Materials

ER -

Hydrothermal corrosion of silicon carbide joints without radiation

Abstract

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