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■■■■■■■■■■■■■■■■■■■ 川崎製鉄技報 KAWASAKI STEEL GIHO Vol.17 (1985) No.2 ■■■■■■■■■■■■■■■■■■■ |
| 硫化物環境下での低合金鋼の応力腐食割れ挙動 Stress Corrosion Cracking Behavior of Low Alloy Steels in H2S Environment 山根 康義(Yasuyoshi Yamane) 元田 邦昭(Kuniaki Motoda) 倉橋 速生(Hayao Kurahashi) 中井 揚一(Yoichi Nakai) |
| 要旨 : 低合金鋼の硫化物応力腐食割れ(SSC)挙動を種々の濃度の硫化水素(H2S)水溶液中で定歪4点曲げ試験により調査した。その結果,低濃度H2S環境において従来高濃度H2S環境で認められていた水素脆化割れとは著しく形態の異なる微細な粒内割れ(毛割れ)が発生することを見出した,毛割れはNiを含んだ鋼ほど,また硬度の高い鋼ほど発生しやすく,H2S濃度がわずか2 ppmでも発生する。この毛割れの挙動については分極下で定荷重引張SSC試験を行い,さらに詳細に検討した。その結果,毛割れは活性経路腐食(APC)機構によって生じ,その先端から水素脆化割れが発生することが明らかとなった。Ni含有鋼の耐SSC性が劣るのは,NiによりAPCが促進されるためである。 |
| Synopsis : Sulfide stress corrosion (SSC) behavior of low alloy steels were examined in an aqueous solution containing various amounts of hydrogen sulfide(H2S), using four-point bend beam specimens. A number of transgranular microcracks ware found on specimens immersed in solutions of low H2S concentration. The morphology of these microcracks was markedly different from that of macrocrack observed in high H2S solutions, which is considered to have been caused by hydrogen embrittlement (HE). The microcracks of high-strength or Ni-containing steels were sharp and deep even in a solution containing only 2 ppm H2S. This microcraking phenomenon was more precisely investigated with a constant loading SSC test under electrochemically polarized condition. This result showed that transgranular microcracks were caused by a localized anodic attack and their tips acted as nucleation sites of intergranular cracks which were caused by HE. Therefore, the fact that Ni bearing steels are suspectible to SSC is considered to be caused by transgranular microcracks which are accelerated by Ni. |
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