Irradiation hardening and microstructure evolution of ion-irradiated Zr-hydride

Naoko Oono; Ryuta Kasada; Toru Higuchi; Kan Sakamoto; Masafumi Nakatsuka; Akiko Hasegawa; Sosuke Kondo; Hideki Matsui; Akihiko Kimura

doi:10.1016/j.jnucmat.2011.06.041

Irradiation hardening and microstructure evolution of ion-irradiated Zr-hydride

Naoko Oono, Ryuta Kasada, Toru Higuchi, Kan Sakamoto, Masafumi Nakatsuka, Akiko Hasegawa, Sosuke Kondo, Hideki Matsui, Akihiko Kimura

研究成果: Article › 査読

9 被引用数 (Scopus)

抄録

6.4 MeV Fe³⁺ ion irradiation was applied to a -Zr-hydride to clarify the relation between the hardening and the microstructure change of bulk Zr-hydrides under neutron irradiation. Irradiation hardening was measured by nano-indentation test. TEM cross-sectional observation results showed that the dominant deformation mechanism of -Zr-hydride was the formation of the new fine twin bands and tangled dislocations and black dot-like defects were observed in the irradiated hydride matrix. Ultra low voltage SEM (ULV-SEM) observation showed that cracks were induced obviously in the indents print after the irradiation. The irradiation-induced defects made the deformation of -Zr-hydride difficult.

本文言語	English
ページ（範囲）	366-370
ページ数	5
ジャーナル	Journal of Nuclear Materials
巻	419
号	1-3
DOI	https://doi.org/10.1016/j.jnucmat.2011.06.041
出版ステータス	Published - 2011 12月
外部発表	はい

ASJC Scopus subject areas

核物理学および高エネルギー物理学
材料科学（全般）
原子力エネルギーおよび原子力工学

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10.1016/j.jnucmat.2011.06.041

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title = "Irradiation hardening and microstructure evolution of ion-irradiated Zr-hydride",

abstract = "6.4 MeV Fe3+ ion irradiation was applied to a -Zr-hydride to clarify the relation between the hardening and the microstructure change of bulk Zr-hydrides under neutron irradiation. Irradiation hardening was measured by nano-indentation test. TEM cross-sectional observation results showed that the dominant deformation mechanism of -Zr-hydride was the formation of the new fine twin bands and tangled dislocations and black dot-like defects were observed in the irradiated hydride matrix. Ultra low voltage SEM (ULV-SEM) observation showed that cracks were induced obviously in the indents print after the irradiation. The irradiation-induced defects made the deformation of -Zr-hydride difficult.",

author = "Naoko Oono and Ryuta Kasada and Toru Higuchi and Kan Sakamoto and Masafumi Nakatsuka and Akiko Hasegawa and Sosuke Kondo and Hideki Matsui and Akihiko Kimura",

note = "Funding Information: The ion irradiation and microstructural analysis of this work is served by the MEXT supported program “Open Advanced Facilities to Industry”, named Project ADMIRE (Application of DuET (Dual-beam irradiation facility for Energy science and Technology) and MUSTER (Multi-Scale Testing and Evaluation Research) for Industrial Research and Engineering). ",

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doi = "10.1016/j.jnucmat.2011.06.041",

language = "English",

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T1 - Irradiation hardening and microstructure evolution of ion-irradiated Zr-hydride

AU - Oono, Naoko

AU - Kasada, Ryuta

AU - Higuchi, Toru

AU - Sakamoto, Kan

AU - Nakatsuka, Masafumi

AU - Hasegawa, Akiko

AU - Kondo, Sosuke

AU - Matsui, Hideki

AU - Kimura, Akihiko

N1 - Funding Information: The ion irradiation and microstructural analysis of this work is served by the MEXT supported program “Open Advanced Facilities to Industry”, named Project ADMIRE (Application of DuET (Dual-beam irradiation facility for Energy science and Technology) and MUSTER (Multi-Scale Testing and Evaluation Research) for Industrial Research and Engineering).

PY - 2011/12

Y1 - 2011/12

N2 - 6.4 MeV Fe3+ ion irradiation was applied to a -Zr-hydride to clarify the relation between the hardening and the microstructure change of bulk Zr-hydrides under neutron irradiation. Irradiation hardening was measured by nano-indentation test. TEM cross-sectional observation results showed that the dominant deformation mechanism of -Zr-hydride was the formation of the new fine twin bands and tangled dislocations and black dot-like defects were observed in the irradiated hydride matrix. Ultra low voltage SEM (ULV-SEM) observation showed that cracks were induced obviously in the indents print after the irradiation. The irradiation-induced defects made the deformation of -Zr-hydride difficult.

AB - 6.4 MeV Fe3+ ion irradiation was applied to a -Zr-hydride to clarify the relation between the hardening and the microstructure change of bulk Zr-hydrides under neutron irradiation. Irradiation hardening was measured by nano-indentation test. TEM cross-sectional observation results showed that the dominant deformation mechanism of -Zr-hydride was the formation of the new fine twin bands and tangled dislocations and black dot-like defects were observed in the irradiated hydride matrix. Ultra low voltage SEM (ULV-SEM) observation showed that cracks were induced obviously in the indents print after the irradiation. The irradiation-induced defects made the deformation of -Zr-hydride difficult.

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DO - 10.1016/j.jnucmat.2011.06.041

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VL - 419

SP - 366

EP - 370

JO - Journal of Nuclear Materials

JF - Journal of Nuclear Materials

IS - 1-3

ER -

Irradiation hardening and microstructure evolution of ion-irradiated Zr-hydride

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