Neutron Irradiation Effects on Iron Containing Aluminum and Nitrogen

Igata, N.; Hasiguti, Ryukiti R.; Yagi, Eiichi; Nishiike, U.; Watanabe, Kozo

doi:10.1520/stp26615s

Cited by 3 publications

References 6 publications

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Hardening and Recovery of Neutron-Irradiated Pressure Vessel Steel (ASTM A533B)

Takahashi

Yamane

Mima

1975

Journal of Nuclear Science and Technology

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Specimens of ASTM A533B steel were studied to gain information on the annealing process following irradiation, through measurements of internal friction and of hardness. The specimens were quenched from 900°C and tempered a t 650"C, then irradiated in the JMTR reactor a t 65"-75"C to a neutron dose of 1. 4-1. 7 ~ 1 0 ~ ~ n / c m ~ (E,>lMeV). Peaks were observed on the internal friction curves from unirradiated specimens. These peaks disappeared upon irradiation, but reappeared with annealing treatment at 150°C. Radiation-anneal hardening was observed a t 250°C. T h e recovery of radiation hardening begins a t a temperature between 250" and 350"C, but is not completed even a t 550°C.

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Hardening and Recovery of Neutron-Irradiated Pressure Vessel Steel (ASTM A533B)

Takahashi

Yamane

Mima

1975

Journal of Nuclear Science and Technology

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Interaction of Interstitial Impurities with Radiation-Induced Defects Leading to Improved Elevated Temperature Mechanical Properties of Mild Steel

Murty¹

1984

Nuclear Technology

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Structure and Composition Effects on Irradiation Sensitivity of Pressure Vessel Steels

Steele

1970

Irradiation Effects on Structural Alloys for Nuclear Reactor Applications

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The paper emphasizes engineering implications of the effects of structure and composition on the irradiation sensitivity of steels. Theoretical considerations are discussed and reviewed as they relate to possible explanations for observations on the subject. The structural aspects include primarily the type of metallurgical microstructure and the grain size and also the steel condition, that is, plate, forging, weld metal, or weld heat affected zone. The compositional factors are never quite separable from structural factors in a microscopic sense. Several interstitial elements, primarily nitrogen, carbon, oxygen, and hydrogen, have been investigated for their relationship to neutron radiation sensitivity. Substitutional elements, including nickel, copper, phosphorus, vanadium, sulfur, and boron, as constituents in steels have also been included. Copper and phosphorus are found particularly detrimental to radiation resistance when present in quantities above certain levels.

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Neutron Irradiation Effects on Iron Containing Aluminum and Nitrogen

Cited by 3 publications

References 6 publications

Hardening and Recovery of Neutron-Irradiated Pressure Vessel Steel (ASTM A533B)

Hardening and Recovery of Neutron-Irradiated Pressure Vessel Steel (ASTM A533B)

Interaction of Interstitial Impurities with Radiation-Induced Defects Leading to Improved Elevated Temperature Mechanical Properties of Mild Steel

Structure and Composition Effects on Irradiation Sensitivity of Pressure Vessel Steels

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