수소 장입된 극저온용 철강 소재의 수소 취성 민감도 특성 평가Part II : 기계 물성 평가


Research for Hydrogen Embrittlement Susceptibility of Hydrogen Charged Cryogenic Steels Part II : Evaluation of Mechanical Properties

표창민, 김성환, 김재웅

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Hydrogen is one of the main candidates in replacing fossil fuels in the forthcoming years. However, hydrogen technologies must deal with safety aspects due to the specific sub�stance properties. This study aims to provide an overview on the loss of mechanical properties of cryogenic materials, which may lead to serious consequences, such as fires and explosions. The hydrogen embrittlement of cryogenic steels was investigated through slow strain rate tensile tests (SSRTs) and thermal desorption analyses of electrochemically H-charged specimens. As a prior study to confirm mechanical properties under liquid hydrogen conditions, the amount of diffusive hydrogen that causes hydrogen embrittlement was confirmed after charging hydrogen using an electrochemical method for 4 types of steel materials applied as cryogenic materials did. When exposed to the same hydrogen charging conditions, the amount of hydrogen diffused into the 9% nickel steel is the highest compared to the austenitic steel type. It is considered that this is because the diffusion and integration of hydrogen into the interior is easy. It is necessary to analyze the relationship between hydrogen loading and mechanical properties, and this will be carried out in a follow-up study.


1. 서론
2. 실험 방법
2.1 실험 재료
2.2 미소인장시험편
2.3 수소 장입 방법 및 조건
2.4 저속 변형 속도 시험(SSRT)
2.5 충격 인성 평가
3. 시험 결과 및 고찰
3.1 상온 SSRT 시험 결과
3.2 극저온(-196℃)SSRT 시험결과
3.3 충격 인ㅇ성 평가
4. 논의
5. 결론


  • 표창민 Chang-Min Pyo. Korea Institue of Industrial Technology
  • 김성환 Sung-Hwan Kim. Korea Institue of Industrial Technology
  • 김재웅 Jae-Woong Kim. Korea Institue of Industrial Technology, Senior Researcher


자료제공 : 네이버학술정보

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