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論文

Molecular dynamics simulation to elucidate effects of spatial geometry on interactions between an edge dislocation and rigid, impenetrable precipitate in Cu

津川 聖人*; 早川 頌*; 沖田 泰良*; 愛知 正温*; 板倉 充洋; 鈴木 克幸*

Computational Materials Science, 215, p.111806_1 - 111806_8, 2022/12

 被引用回数:1 パーセンタイル:31.35(Materials Science, Multidisciplinary)

Molecular dynamics simulations were conducted to evaluate the interactions between an edge dislocation and a rigid, impenetrable precipitate in Cu by changing the distance between the glide plane of the dislocation and the center of the precipitate ($$zeta$$). In these calculations, the precipitate was introduced as a super particle that moved according to the total force exerted by the matrix atoms on the precipitate atoms. When the center of the precipitate was close to the glide plane, an Orowan loop was formed around the precipitate after the dislocation detached, and the critical resolved shear stress (CRSS) was similar to the value evaluated by the results at $$zeta=0$$. However, when the glide plane was far from the center of the precipitate, either a vacancy loop or loops generated through the Hirsch mechanism were formed, depending on whether the center of the precipitate was below or above the glide plane. The magnitude of the CRSS was not symmetric about $$zeta=0$$. This study confirmed that it is necessary to analyze the CRSS by changing $$zeta$$ to construct a predictive model for the hardening caused by the formation of lattice defects, and that precipitate hardening appears to be smaller than the value estimated using the results at $$zeta=0$$.

論文

Molecular dynamics simulations to quantify the interaction of a rigid and impenetrable precipitate with an edge dislocation in Cu

津川 聖人*; 早川 頌*; 岩瀬 祐樹*; 沖田 泰良*; 鈴木 克幸*; 板倉 充洋; 愛知 正温*

Computational Materials Science, 210, p.111450_1 - 111450_9, 2022/07

 被引用回数:5 パーセンタイル:77.68(Materials Science, Multidisciplinary)

Precipitation strengthening has been utilized to improve the properties of metallic materials so far. Since interactions between precipitates and dislocations are micro-mechanisms responsible for this phenomenon, a molecular dynamics (MD) simulation is a powerful tool for quantifying this phenomenon. In this study, we introduced a method to simulate a rigid and impenetrable precipitate against a direct contact with a dislocation using a single interatomic potential representing the bulk material. The total force exerted on all atoms in the precipitate region was divided by the number of atoms in the region. This average force was then applied to each atom in the region to simulate one super particle that moved depending on the total force exerted by the matrix atoms on the precipitate atoms. We used MD simulations to quantify the interaction of a precipitate with an edge dislocation. After the dislocation overcame the precipitate, an Orowan loop was formed along the outer circumference of the precipitate. The energy of the loop was 2.1 $$pm$$ 0.1 eV/b, which was higher than that obtained using the elasticity. The hardening caused by the precipitate was larger than that caused by voids of the same size. The proposed method can be applied to simulate interactions of precipitates with dislocations in any type of metallic material, especially when a dislocation bypasses a precipitate without changing its structure, except when a strong repulsive force acts between them.

論文

Modeling changes in the second harmonic generation of ultrasonic waves having wavelengths beyond the length scale of conventional molecular dynamics

森 承宇*; 松田 那由多*; 沖田 泰良*; 愛知 正温*; 板倉 充洋; 鈴木 克幸*

Materialia, 21, p.101371_1 - 101371_6, 2022/03

The nonlinear ultrasonic (NLU) technique is a nondestructive method for detecting nanostructure in crystalline materials. In this study, a method was developed to quantify the changes in NLU signals associated with nanostructure using molecular dynamics (MD). A nonreflective boundary, which reduces the computational cost to the first power of the wavelength, was used to achieve this. This method is distinct from previous studies using a conventional MD, for which the computational cost is proportional to the square of the wavelength. The nonreflective boundary eliminates the influence of reflected waves at the detection position by setting a buffer region at the end of the simulation cell opposite from the wave source, and periodically resetting the displacements and velocities of all atoms in this region. This method allows the introduction of elastic waves with wavelengths longer than the cell size, and only an extension of time is required, according to the extension of the wavelength, without increasing the cell size. Hence, it is possible to extend the NLU wavelength by approximately four orders of magnitude, which approaches the wavelengths used for inspections and, thus, to use MD to simulate the changes in the NLU signals induced by nanostructure. The NLU signal values obtained by the two methods were in good agreement for a perfect Fe crystal and a Fe crystal containing 1% monovacancies. No significant frequency dependence of the acoustic nonlinearity parameter was found at 0 K. This method will contribute to the development of an inspection technique based on scientific principles.

論文

Screw dislocation-spherical void interactions in fcc metals and their dependence on stacking fault energy

早川 頌*; 土井原 康平*; 沖田 泰良*; 板倉 充洋; 愛知 正温*; 鈴木 克幸*

Journal of Materials Science, 54(17), p.11509 - 11525, 2019/09

 被引用回数:13 パーセンタイル:56.98(Materials Science, Multidisciplinary)

We performed molecular dynamics simulations to evaluate the effects of stacking fault energy (SFE) on interactions between a screw dislocation and spherical voids in face-centered cubic (fcc) metals. It was observed that the frequency of the cross-slips is a critical factor affecting the interaction, with primarily three different interaction morphologies being observed: (1) the two partial dislocations detach from the void independently with a time lag, (2) the two partial dislocations detach from the void almost simultaneously on a single slip plane, and (3) the two partial dislocations detach from the void almost simultaneously while involving more than one cross-slip and a jog formation. The magnitude of the critical resolved shear stress (CRSS) increases in the order mentioned above. The CRSS values for interaction morphology (2), which was observed most frequently in this study, were in good agreement with those predicted analytically by adjusting the parameters dependent on the SFE. Based on the obtained results, we discussed the applicability of the analytical model for void hardening in fcc metals. The results of this work contribute significantly to the modeling of mechanical property degradation in irradiated metals.

論文

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

早川 頌*; 沖田 泰良*; 板倉 充洋; 愛知 正温*; 鈴木 克幸*

Philosophical Magazine, 98(25), p.2311 - 2325, 2018/06

 被引用回数:7 パーセンタイル:41.18(Materials Science, Multidisciplinary)

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。

論文

Atomic simulations to evaluate effects of stacking fault energy on interactions between edge dislocation and spherical void in face-centred cubic metals

土井原 康平*; 沖田 泰良*; 板倉 充洋; 愛知 正温*; 鈴木 克幸*

Philosophical Magazine, 98(22), p.2061 - 2076, 2018/05

 被引用回数:18 パーセンタイル:71.93(Materials Science, Multidisciplinary)

原子炉材料、特に炉内構造材のオーステナイトの照射脆化を評価する際に、オーステナイトの特徴である低い積層欠陥エネルギーの影響を評価する必要がある。本研究では積層欠陥エネルギーだけを変化させたFCC金属のモデルポテンシャルを用いて転位とボイドの相互作用形態を評価し、ボイドの大きさと積層欠陥エネルギーの値によって様々な相互作用形態があることを見出した。

論文

The Groundwater pressure response due to shaft excavation and its possible application for characterizing hydrogeological structure

戸谷 成寿; 竹内 竜史; 徳永 朋祥*; 愛知 正温*

Proceedings of 36th International Association of Hydrogeologists Congress 2008 (IAH 2008) (CD-ROM), 7 Pages, 2008/10

瑞浪超深地層研究の建設は2003年に開始された。2006年から2007年には立坑及びGL-200mの水平坑道から複数のボーリング掘削が実施され、これに伴い、周辺の地下水圧モニタリング孔において、deformation-induced effectに類似した特異な水圧応答が観測された。観測結果は、遮水性を有すると考えられる既知の断層を境目に水圧応答が異なっていることを示している。本研究では、今回観測された特異な水圧応答を用いた、地下水理地質構造推定の可能性について述べる。

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