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Interactions between clusters of self-interstitial atoms via a conservative climb in BCC-Fe

BCC鉄における保存的上昇運動による格子間原子クラスタの相互作用

早川 頌*; 沖田 泰良*; 板倉 充洋; 愛知 正温*; 鈴木 克幸*

Hayakawa, Sho*; Okita, Taira*; Itakura, Mitsuhiro; Aichi, Masaatsu*; Suzuki, Katsuyuki*

BCC鉄における格子間原子クラスタは容易方向へのすべり運動とは別に垂直方向への保存的上昇運動を行い、これにより三次元的な運動を行う。この拡散の三次元性は転位への吸収確率に大きく影響し、材料のスエリングなどの照射劣化挙動を左右する。この保存的上昇運動を分子動力学計算とモンテカルロ計算を組み合わせた手法で解析し、移動障壁エネルギーを評価したところ、従来の弾性理論により予想されていた値よりはるかに大きい値が得られた。

We conduct kinetic Monte Carlo simulations for the conservative climb motion of a cluster of self-interstitial atoms towards another SIA cluster in BCC Fe; the conservative climb velocity is inversely proportional to the fourth power of the distance between them, as per the prediction based on Einstein's equation. The size of the climbing cluster significantly affects its conservative climb velocity, while the size of the cluster that originates the stress field does not. The activation energy for the conservative climb is considerably greater than that derived in previous studies and strongly dependent on the climbing cluster size.

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