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Macroscopic bending deformations and mechanical properties of A12024-T351 thick plates with laser peen forming in a cantilever state

机译：A12024-T351厚板的宏观弯曲变形和机械性能，在悬臂状态下形成激光钢板

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Laser peen forming (LPF) was used to study the macroscopic bending deformations and mechanical properties of A12024-T351 thick plates in a cantilever state by surface morphologies, surface bending profiles, residual stresses, microstructure and micro-hardnesses. The results indicated that square micro-pits with about 49μm in depth were induced by the laser shock wave. Overlapping LPF induced curvature radii in the shocked area decreased with LPF impacts. Compressive residual stresses and refined grains were generated at both the top and bottom surfaces. Affected layer depth of micro-hardnesses was approximately 2.1 mm in the surface layer after LPF-2.

机译：通过表面形态，表面弯曲曲线，残余应力，微观结构和微硬度，使用激光膨胀形成（LPF）研究A12024-T351厚板的宏观弯曲变形和A12024-T351厚板的机械性能。结果表明，激光冲击波诱导了大约49μm的方形微坑。震动区域中的重叠LPF感应曲率半径随着LPF的影响而降低。在顶部和底表面上产生压缩残余应力和精制晶粒。在LPF-2之后，在表面层中，微硬度的受影响的层深度约为2.1mm。

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来源
《International Conference on Photonic Technologies》|2020年|481-965p|共6页
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作者
Junfeng Wu; Zhigang Che; Shikun Zou; Xia Huang; Ziwen Cao; Rujian Sun;
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原文格式 PDF
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中图分类 TN2-53;
关键词
Laser peen forming (LPF); A12024-T351 thick plates; Macroscopic bending deformations; Curvature radii; Mechanical properties;

机译：激光割配（LPF）;A12024-T351厚板;宏观弯曲变形;曲率半径;机械性能;

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专利

1. Macroscopic bending deformations and mechanical properties of Al2024-T351 thick plates with laser peen forming in a cantilever state [J] . Junfeng Wu, Zhigang Che, Shikun Zou, Procedia CIRP . 2020,第Suppla1期

机译：Al2024-T351厚板的宏观弯曲变形和机械性能，在悬臂状态下形成激光器
2. Quantitative evaluation of specimen geometry effect on bending deformation of laser peen forming [J] . Hu Yongxiang, Xie Yufei, Wu Di, International Journal of Mechanical Sciences . 2019,第期

机译：标本几何效应对激光弯曲变形的定量评价
3. Surface Morphology and Bending Deformation of 2024-T3 Thin Sheets with Laser Peen Forming [J] . Junfeng Wu, Shikun Zou, Yongkang Zhang, MATEC Web of Conferences . 2018,第3期

机译：2024-T3薄板激光喷丸成形的表面形态和弯曲变形
4. Macroscopic bending deformations and mechanical properties of A12024-T351 thick plates with laser peen forming in a cantilever state [C] . Junfeng Wu, Zhigang Che, Shikun Zou, International Conference on Photonic Technologies . 2020

机译：A12024-T351厚板的宏观弯曲变形和机械性能，在悬臂状态下形成激光钢板
5. Hybrid/Tandem Laser-Arc Welding of Thick Low Carbon Martensitic Stainless Steel Plates = [D] . Mirakhorli, Fatemeh. 2016

机译：低碳马氏体厚钢板的混合/串联激光电弧焊接=
6. A biomechanical comparison of conventional dynamic compression plates and string-of-pearls™ locking plates using cantilever bending in a canine Ilial fracture model [O] . Allison R Kenzig, James R Butler, Lauren B Priddy, 2017

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7. Thin-Sheet-Metal Bending by Laser Peen Forming with Femtosecond Laser [O] . Yoshihiro SAGISAKA, Masayoshi KAMIYA, Minoru MATSUDA, 2009

机译：用飞秒激光形成薄板 - 金属弯曲用飞秒激光

Macroscopic bending deformations and mechanical properties of A12024-T351 thick plates with laser peen forming in a cantilever state

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