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Effects of residual stress and plastic strain on hydrogen embrittlement of a stretch-formed TRIP-aided martensitic steel sheet

ストレッチ成形されたTRIP支援マルテンサイト鋼板の水素脆化に及ぼす残留応力と塑性ひずみの影響

北條 智彦*; 秋山 英二*; 齋藤 寛之*; 城 鮎美*; 安田 良*; 菖蒲 敬久  ; 衣笠 潤一郎*; 湯瀬 文雄*

Hojo, Tomohiko*; Akiyama, Eiji*; Saito, Hiroyuki*; Shiro, Ayumi*; Yasuda, Ryo*; Shobu, Takahisa; Kinugasa, Junichiro*; Yuse, Fumio*

変態誘起塑性マルテンサイト鋼の半球延伸成形試験片の水素助長割れを調査した。水素の伝搬により、鋼板に形成された球体のすそにき裂が生じ、き裂は半径方向に沿って球体の中腹から平面に向かって伝播した。残留オーステナイトの応力,塑性ひずみ,体積分率の分布を、SPring-8でのシンクロトロンX線放射を利用したエネルギー分散型X線回折法を使用して分析した。測定された引張応力が最も高い領域でき裂の発生が起こったことは重要である。加えて塑性ひずみと結果として生じるマルテンサイト変態の影響も示唆された。

Hydrogen assisted cracking on hemispherically-stretch-formed specimens of transformation induced plasticity-aided martensitic steel was investigated. Hydrogen charging induced cracking around the foot of the impression formed on the steel sheet, and the cracks propagated along the radial direction toward the hillside and the plains. Distributions of stress, plastic strain and volume fraction of retained austenite were analyzed employing the energy-dispersive X-ray diffraction method utilizing the synchrotron X-ray radiation at SPring-8. It was notable that the crack initiation took place in the region where the measured tensile stress was the highest. Influences of plastic strain and resulted martensitic transformation were also suggested.

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