effects of irradiation on thermal conductivity of alloy 690 at low neutron fluence

effects of irradiation on thermal conductivity of alloy 690 at low neutron fluence

;WOO SEOG RYU;DAE GYU PARK;UNG SUP SONG;JIN SEOK PARK;SANG BOK AHN
Journal of hazardous materials 2013 Vol. 45 pp. 219-222
143
ryu2013nucleareffects

Abstract

Alloy 690 has been selected as a steam generator tubing material for SMART owing to a near immunity to primary water stress corrosion cracking. The steam generators of SMART are faced with a neutron flux due to the integrated arrangement inside a reactor vessel, and thus it is important to know the irradiation effects of the thermal conductivity of Alloy 690. Alloy 690 was irradiated at HANARO to fluences of (0.7−28) × 1019n/cm2 (E>0.1MeV) at 250°C, and its thermal conductivity was measured using the laser-flash equipment in the IMEF. The thermal conductivity of Alloy 690 was dependent on temperature, and it was a good fit to the Smith-Palmer equation, which modified the Wiedemann-Franz law. The irradiation at 250°C did not degrade the thermal conductivity of Alloy 690, and even showed a small increase (1%) at fluences of (0.7∼28) × 1019n/cm2 (E>0.1MeV).

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