Effects of neutron dose, dose rate, and irradiation temperature on the irradiation embrittlement of a low-copper reactor pressure vessel steel

Ryuta Kasada; Takeshi Kudo; Akihiko Kimura; Hideki Matsui; Minoru Narui

Effects of neutron dose, dose rate, and irradiation temperature on the irradiation embrittlement of a low-copper reactor pressure vessel steel

Ryuta Kasada, Takeshi Kudo, Akihiko Kimura, Hideki Matsui, Minoru Narui

研究成果: Conference contribution

抄録

A series of irradiation experiments to investigate the effects of neutron tluence and flux on reactor pressure vessel (RPV) steels has been performed using the Japan Material Testing Reactor (JMTR). The irradiation temperature has been precisely controlled at 290°C within an error of ±2°C during reactor operation. The neutron fluence and tlux ranged from 9.3 × 10¹⁷ to 1.1 × 10²⁰ n/cm² and from 1.4 × 10¹¹ to 6.3 × 10¹³ n/cm²/s, respectively. The material used in the present study was an A533B RPV steel in which the copper and phosphorous concentrations are 0.03 and 0.002 wt%, respectively. Charpy impact test results with one-third sized specimens showed no dose-rate dependence. Microstructural observation revealed that a higher irradiation temperature at around 340°C resulted in formation of rather large dislocation loops and smaller microvoids.

本文言語	English
ホスト出版物のタイトル	Effects of Radiation on Materials
ホスト出版物のサブタイトル	22nd Symposium
出版社	American Society for Testing and Materials
ページ	225-235
ページ数	11
ISBN（印刷版）	0803134010, 9780803134010
出版ステータス	Published - 2006
外部発表	はい
イベント	22nd Symposium on Effects of Radiation on Materials - Boston, MA, United States 継続期間: 2004 6月 8 → 2004 6月 10

出版物シリーズ

名前	ASTM Special Technical Publication
巻	1475 STP
ISSN（印刷版）	0066-0558

Other

Other	22nd Symposium on Effects of Radiation on Materials
国/地域	United States
City	Boston, MA
Period	04/6/8 → 04/6/10

ASJC Scopus subject areas

材料科学（全般）

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フィンガープリント

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引用スタイル

Kasada, R., Kudo, T., Kimura, A., Matsui, H., & Narui, M. (2006). Effects of neutron dose, dose rate, and irradiation temperature on the irradiation embrittlement of a low-copper reactor pressure vessel steel. In Effects of Radiation on Materials: 22nd Symposium (pp. 225-235). (ASTM Special Technical Publication; Vol. 1475 STP). American Society for Testing and Materials.

Effects of neutron dose, dose rate, and irradiation temperature on the irradiation embrittlement of a low-copper reactor pressure vessel steel. / Kasada, Ryuta; Kudo, Takeshi; Kimura, Akihiko その他.
Effects of Radiation on Materials: 22nd Symposium. American Society for Testing and Materials, 2006. p. 225-235 (ASTM Special Technical Publication; Vol. 1475 STP).

研究成果: Conference contribution

Kasada, R, Kudo, T, Kimura, A, Matsui, H & Narui, M 2006, Effects of neutron dose, dose rate, and irradiation temperature on the irradiation embrittlement of a low-copper reactor pressure vessel steel. in Effects of Radiation on Materials: 22nd Symposium. ASTM Special Technical Publication, vol. 1475 STP, American Society for Testing and Materials, pp. 225-235, 22nd Symposium on Effects of Radiation on Materials, Boston, MA, United States, 04/6/8.

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abstract = "A series of irradiation experiments to investigate the effects of neutron tluence and flux on reactor pressure vessel (RPV) steels has been performed using the Japan Material Testing Reactor (JMTR). The irradiation temperature has been precisely controlled at 290°C within an error of ±2°C during reactor operation. The neutron fluence and tlux ranged from 9.3 × 1017 to 1.1 × 1020 n/cm2 and from 1.4 × 1011 to 6.3 × 1013 n/cm2/s, respectively. The material used in the present study was an A533B RPV steel in which the copper and phosphorous concentrations are 0.03 and 0.002 wt%, respectively. Charpy impact test results with one-third sized specimens showed no dose-rate dependence. Microstructural observation revealed that a higher irradiation temperature at around 340°C resulted in formation of rather large dislocation loops and smaller microvoids.",

keywords = "Charpy impact test, Dose rate effects, Irradiation embrittlement, Irradiation hardening, Reactor pressure vessel steel",

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AU - Kasada, Ryuta

AU - Kudo, Takeshi

AU - Kimura, Akihiko

AU - Matsui, Hideki

AU - Narui, Minoru

PY - 2006

Y1 - 2006

N2 - A series of irradiation experiments to investigate the effects of neutron tluence and flux on reactor pressure vessel (RPV) steels has been performed using the Japan Material Testing Reactor (JMTR). The irradiation temperature has been precisely controlled at 290°C within an error of ±2°C during reactor operation. The neutron fluence and tlux ranged from 9.3 × 1017 to 1.1 × 1020 n/cm2 and from 1.4 × 1011 to 6.3 × 1013 n/cm2/s, respectively. The material used in the present study was an A533B RPV steel in which the copper and phosphorous concentrations are 0.03 and 0.002 wt%, respectively. Charpy impact test results with one-third sized specimens showed no dose-rate dependence. Microstructural observation revealed that a higher irradiation temperature at around 340°C resulted in formation of rather large dislocation loops and smaller microvoids.

AB - A series of irradiation experiments to investigate the effects of neutron tluence and flux on reactor pressure vessel (RPV) steels has been performed using the Japan Material Testing Reactor (JMTR). The irradiation temperature has been precisely controlled at 290°C within an error of ±2°C during reactor operation. The neutron fluence and tlux ranged from 9.3 × 1017 to 1.1 × 1020 n/cm2 and from 1.4 × 1011 to 6.3 × 1013 n/cm2/s, respectively. The material used in the present study was an A533B RPV steel in which the copper and phosphorous concentrations are 0.03 and 0.002 wt%, respectively. Charpy impact test results with one-third sized specimens showed no dose-rate dependence. Microstructural observation revealed that a higher irradiation temperature at around 340°C resulted in formation of rather large dislocation loops and smaller microvoids.

KW - Charpy impact test

KW - Dose rate effects

KW - Irradiation embrittlement

KW - Irradiation hardening

KW - Reactor pressure vessel steel

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