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열연 후 공냉처리된 API X70강의 수소취성에 미치는 전기화학적 수소장입시간의 영향
성치운 ( Chi Eun Sung ),전현지 ( Hyeon Jee Jeon ),이진경 ( Jin Kyung Lee ),손인수 ( In Soo Son ),이상필 ( Sang Pill Lee ),이석철 ( Seok Cheol Lee ),백운봉 ( Un Bong Baek ),남승훈 ( Seung Hoon Nahm ),배동수 ( Dong Su Bae ) 대한금속재료학회(구 대한금속학회) 2013 대한금속·재료학회지 Vol.51 No.11
This study investigated the effect of the hydrogen charging time under the electro-chemical hydrogen charging condition on hydrogen embrittlement of hot-rolled and then air-cooled API X70 steel. Tensile and V-notch Charpy impact test specimens were held for 0 h, 2 h, 4 h, and 10 h in the electrolyte pot during electro-chemical hydrogen charging processes and then both of tensile and impact tests were completed at room temperature. The microstructure consisted of fine acicular ferrite, coarse polygonal ferrite and pearlite. The yield and tensile strength decreased slightly and elongation decreased rapidly up to 2 h holding time and then decreased slowly with the holding time. The V-notch Charpy impact value decreased continuously up to 4 h holding time and then increased slightly up to 10 h. The morphology of the fracture surface changed from a ductile type to a brittle type with the hydrogen charging time. Secondary cracks were observed in the hydrogen charged specimens. No external cracks were formed at the specimen surface of the tensile tested with 0 h holding time, but many external cracks were observed at the surface of the hydrogen charged specimens. Cracks were observed in the nominal and parallel directions to the tensile direction at the longitudinal cross-section region near the tensile fractured surface with the 2 h held specimen.