Investigation of Threshold Stress Intensity Factor and Plastic Deformation of Crack Tip for Hydrogen-Assisted Cracking of 2.25 Cr-1 Mo Steel

Takayuki Komamura; Tetsuo Shoji

doi:10.1299/kikaia.61.283

Investigation of Threshold Stress Intensity Factor and Plastic Deformation of Crack Tip for Hydrogen-Assisted Cracking of 2.25 Cr-1 Mo Steel

Takayuki Komamura, Tetsuo Shoji

未来科学技術共同研究センター

研究成果: Article › 査読

3 被引用数 (Scopus)

抄録

For hydrogen-assisted cracking of 2.25 Cr-1 Mo steel, the evaluation of the threshold stress intensity factor for subcritical crack growth was examined by employing the slow strain rate test. Also, by the method of recrystallization, a high strain region formed at the crack tip was observed, and the effect of hydrogen on plastic deformation was studied. By this experiment, it was shown that hydrogen promoted subcritical crack growth at a low stress intensity level, K_1H(40~80 MPa•m^1/2) well below K_1C(300~400 MP•m^1/2), and hydrogen also enhanced plastic deformation at the crack tip. This result suggests that the plastic deformation which is enhanced by hydrogen exerts large effects on subcritical crack growth in hydrogen-assisted cracking of 2.25 Cr-1 Mo steel.

本文言語	English
ページ（範囲）	283-288
ページ数	6
ジャーナル	Transactions of the Japan Society of Mechanical Engineers Series A
巻	61
号	582
DOI	https://doi.org/10.1299/kikaia.61.283
出版ステータス	Published - 1995

ASJC Scopus subject areas

Materials Science(all)
Mechanics of Materials
Mechanical Engineering

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10.1299/kikaia.61.283

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引用スタイル

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title = "Investigation of Threshold Stress Intensity Factor and Plastic Deformation of Crack Tip for Hydrogen-Assisted Cracking of 2.25 Cr-1 Mo Steel",

abstract = "For hydrogen-assisted cracking of 2.25 Cr-1 Mo steel, the evaluation of the threshold stress intensity factor for subcritical crack growth was examined by employing the slow strain rate test. Also, by the method of recrystallization, a high strain region formed at the crack tip was observed, and the effect of hydrogen on plastic deformation was studied. By this experiment, it was shown that hydrogen promoted subcritical crack growth at a low stress intensity level, K1H(40~80 MPa•m1/2) well below K1C(300~400 MP•m1/2), and hydrogen also enhanced plastic deformation at the crack tip. This result suggests that the plastic deformation which is enhanced by hydrogen exerts large effects on subcritical crack growth in hydrogen-assisted cracking of 2.25 Cr-1 Mo steel.",

keywords = "2.25 Cr-1 Mo Steel, Energy Release Rate, Hydrogen Embrittlement, Hydrogen-Assisted Cracking, Plastic Deformation, Plastic Strain, Recrystallized Region, Slow Strain Rate Test, Threshold Stress Intensity",

author = "Takayuki Komamura and Tetsuo Shoji",

year = "1995",

doi = "10.1299/kikaia.61.283",

language = "English",

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AU - Komamura, Takayuki

AU - Shoji, Tetsuo

PY - 1995

Y1 - 1995

N2 - For hydrogen-assisted cracking of 2.25 Cr-1 Mo steel, the evaluation of the threshold stress intensity factor for subcritical crack growth was examined by employing the slow strain rate test. Also, by the method of recrystallization, a high strain region formed at the crack tip was observed, and the effect of hydrogen on plastic deformation was studied. By this experiment, it was shown that hydrogen promoted subcritical crack growth at a low stress intensity level, K1H(40~80 MPa•m1/2) well below K1C(300~400 MP•m1/2), and hydrogen also enhanced plastic deformation at the crack tip. This result suggests that the plastic deformation which is enhanced by hydrogen exerts large effects on subcritical crack growth in hydrogen-assisted cracking of 2.25 Cr-1 Mo steel.

AB - For hydrogen-assisted cracking of 2.25 Cr-1 Mo steel, the evaluation of the threshold stress intensity factor for subcritical crack growth was examined by employing the slow strain rate test. Also, by the method of recrystallization, a high strain region formed at the crack tip was observed, and the effect of hydrogen on plastic deformation was studied. By this experiment, it was shown that hydrogen promoted subcritical crack growth at a low stress intensity level, K1H(40~80 MPa•m1/2) well below K1C(300~400 MP•m1/2), and hydrogen also enhanced plastic deformation at the crack tip. This result suggests that the plastic deformation which is enhanced by hydrogen exerts large effects on subcritical crack growth in hydrogen-assisted cracking of 2.25 Cr-1 Mo steel.

KW - 2.25 Cr-1 Mo Steel

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KW - Recrystallized Region

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KW - Threshold Stress Intensity

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