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佐野 智一*; 松田 智己*; 廣瀬 明夫*; 寺井 智之*; 掛下 智之*; 犬伏 雄一*; 佐藤 孝弘*; 矢橋 牧名*; 菖蒲 敬久; 他22名*
Scientific Reports (Internet), 13, p.13796_1 - 13796_10, 2023/08
被引用回数:0 パーセンタイル:0(Multidisciplinary Sciences)Over the past century, understanding the nature of shock compression of condensed matter has been a major topic. About 20 years ago, a femtosecond laser emerged as a new shock-driver. Unlike conventional shock waves, a femtosecond laser driven shock wave creates unique microstructures in materials. Therefore, the properties of this shock wave may be different from those of conventional shock waves. However, the lattice behaviour under femtosecond laser-driven shock compression has never been elucidated. Here we report the ultrafast lattice behaviour in iron shocked by direct irradiation of a femtosecond laser pulse, diagnosed using X-ray free electron laser diffraction. We found that the initial compression state caused by the femtosecond laser driven shock wave is the same as that caused by conventional shock waves. We also found, for the first time experimentally, the temporal deviation of peaks of stress and strain waves predicted theoretically. Furthermore, the existence of a plastic wave peak between the stress and strain wave peaks is a new finding that has not been predicted even theoretically. Our findings will open up new avenues for designing novel materials that combine strength and toughness in a trade-off relationship.
吉田 雅幸*; 西端 樹*; 松田 朋己*; 伊藤 佑介*; 杉田 直彦*; 城 鮎美*; 菖蒲 敬久; 荒河 一渡*; 廣瀬 明夫*; 佐野 智一*
Journal of Applied Physics, 132(7), p.075101_1 - 075101_9, 2022/08
被引用回数:5 パーセンタイル:67.2(Physics, Applied)This study aims to investigate the influence of the pulse duration on the mechanical properties and dislocation density of a aluminum alloy treated using dry laser peening. The results of the micro-Vickers hardness test, residual stress measurement, and dislocation density measurement demonstrate that over a pulse duration range of 180 fs to 10 ps, the maximum peening effects are achieved with a pulse duration of 1 ps. Moreover, the most significant dry laser peening effects are obtained by choosing a pulse duration that achieves a laser intensity that simultaneously generates the strongest shock pressure, suppresses optical nonlinear effects, and realizes the least thermal effects, which weaken the shock effects.
佐野 智一*; 詠村 嵩之*; 廣瀬 明夫*; 川人 洋介*; 片山 聖二*; 荒河 一渡*; 政木 清孝*; 城 鮎美*; 菖蒲 敬久; 佐野 雄二*
Metals, 9(11), p.1192_1 - 1192_13, 2019/11
被引用回数:15 パーセンタイル:65.54(Materials Science, Multidisciplinary)本研究の目的は、ドライレーザーピーニング(DryLP)の有効性を検証することである。DryLPは、大気条件下でフェムト秒レーザーパルスを使用して、加工合金中の硬度,残留応力,疲労性能などの機械的特性を改善するピーニング技術である。レーザー溶接された2024アルミニウム合金にDryLP処理を施すと軟化した溶接金属は母材の元の硬度に回復し、溶接金属と熱影響部の残留引張応力は圧縮応力に変わった。疲労寿命は180MPaの引張圧縮試験でほぼ2倍になり、120MPaでは50倍以上増加した。以上から、DryLPは低応力振幅での溶接欠陥のあるレーザー溶接アルミニウム試験片の疲労性能を改善するのにより効果的であることを明らかにした。
