炭素鋼SM490B, 低合金鋼SCM435, ステンレス鋼SUS304の水素誘起き裂進展下限界値<i>K</i>_I,Hに及ぼす水素ガス圧力の影響

<p>In order to clarify the effect of hydrogen-gas pressure on threshold of hydrogen-induced crack growth (<i>K</i>_I,H), elasto-plastic fracture toughness tests were performed on JIS-SM490B carbon steel, JIS-SCM435 low-alloy steel and JIS-SUS304 stainless steel. For JIS-SM490B and JIS-SUS304, the values of <i>K</i>_I,H at displacement rates of 2×10^–5 and 2×10^–4 mm/s were almost the same in hydrogen at pressures of <i>p</i>_H2= 20, 45 and 115 MPa (<i>K</i>_I,H ≒ 80 MPa·m^1/2 for JIS-SM490B and 150 MPa·m^1/2 for JIS-SUS304). In contrast, for JIS-SCM435, the values of <i>K</i>_I,H at displacement rates of 2×10^–5 and 2×10^–4 mm/s were the same in hydrogen gas at pressures of <i>p</i>_H2 = 20, 45 and 80 MPa (<i>K</i>_I,H ≒ 100 MPa·m^1/2); however, those of <i>K</i>_I,H were degraded in 115-MPa hydrogen gas (<i>K</i>_I,H ≒ 50 MPa·m^1/2). Based on the HISCG (Hydrogen Induced Successive Crack Growth) model, an effect of <i>p</i>_H2 on <i>K</i>_I,H and an existence of <i>K</i>_I,H were also discussed for JIS-SM490B, JIS-SCM435 and JIS-SUS304.</p>