部分代表性学术论文: sG.X. Lu, X.K. Luo, Q. Wang, J.D. Liu, Z. Ji, F. Lu, X.F. Sun, Indirect confirmation and theoretical application of the “plasma shock-cavitation” principle of pulsed laser shock, Transactions of Nonferrous Metals Society of China, 2023. sG.X. Lu, X.K. Luo, H. Li, C. Zheng, D.G. Wang, S. Gao, L. Lan, X. Wang, Z. Ji, C.Z. Chen, Stepwise varying of laser parameters to enhance the residual stress field in multiple laser shock processing: Numerical verification of single-point region, The International Journal of Advanced Manufacturing Technology, 2023. sG.X. Lu, D.G. Wang, S. Gao, H. Li, Z. Ji, C.F. Yao, Will the laser shock-induced residual stress hole inevitably occur?, Journal of Materials Research and Technology, 18, 2022, 3626-3630. sG.X. Lu, J. Li, Z. Ji, H. Li, C.F. Yao, J.S. Li, K. Sugioka, G.Q. Zhao, How does the pulsed laser turn into ‘force’?, Measurement, 185, 2021, 110016. sG.X. Lu, H. Li, X. Pei, G. Cassar, C.F. Yao, Modeling and analysis of variable parameters for compound hole expansion of fit bushing, Journal of Materials Engineering and Performance, 30(11), 2021, 8210-8223. sG.X. Lu, L. Wang, H. Li, Z. Ji, Q. Wang, X. Pei, and K. Sugioka. Methods for the suppression of “residual stress holes” in laser shock treatment, Materials Today Communications, 28, 2021, 102486. sG.X. Lu, U. Trdan, Y.K. Zhang, J.L. Dulaney, The distribution regularity of residual stress on a metal surface after laser shock marking, Mechanics of Materials, 143, 2020, 103310. sG.X. Lu, R.Z. Wang, J.D. Liu, Y.Z. Zhou, Formation mechanism of residual stress field induced by surface strengthening process, Journal of Testing and Evaluation, 48(4), 2020, 2936-2945. sG.X. Lu, H. Liu, C.H. Lin, Z. Zhang, P. Shukla, Y.K. Zhang, J.H. Yao, Improving the fretting performance of aero-engine tenon joint materials using surface strengthening, Materials Science and Technology, 35(15), 2019, 1781-1788. sG.X. Lu, J. Li, Y.K. Zhang, D.W. Sokol, Effect of initial surface roughness on the actual intensity of laser shock processing, Surface Topography: Metrology and Properties, 7(1), 2019, 015025. sG.X. Lu, D.W. Sokol, Y.K. Zhang, J.L. Dulaney, Nanosecond pulsed laser-generated stress effect inducing macro-micro-nano structures and surface topography evolution, Applied Materials Today, 15, 2019, 171-184. sG.X. Lu, J.D. Liu, Y.Z. Zhou, X.F. Sun, Differences in microscale surface contours of metallic targets subjected to laser shock, Optics Communications, 436, 2019, 188-191. sG.X. Lu, J. Li, Y.K. Zhang, D.W. Sokol, A metal marking method based on laser shock processing, Materials and Manufacturing Processes, 34(6), 2019, 598-603. sG.X. Lu, J.D. Liu, H.C. Qiao, T. Jin, X.F. Sun, Crack appearance of a laser shock-treated single crystal nickel-base superalloy after isothermal fatigue failure, Surface and Coatings Technology, 321, 2017, 74-80. sG.X. Lu, J.D. Liu, H.C. Qiao, Y.Z. Zhou, T. Jin, X.F. Sun, Z.Q. Hu, Surface topography evolution of Ni-based single crystal superalloy under laser shock: Formation of the nano-scale surface reliefs, Applied Physics A, 123(3), 2017, 213. sG.X. Lu, J.D. Liu, H.C. Qiao, Y.Z. Zhou, T. Jin, J.B. Zhao, X.F. Sun, Z.Q. Hu, Effect of laser shock on tensile deformation behavior of a single crystal nickel-base superalloy, Materials Science and Engineering: A, 686, 2017, 46-53. sG.X. Lu, J.D. Liu, H.C. Qiao, Y.Z. Zhou, T. Jin, J.B. Zhao, X.F. Sun, Z.Q. Hu, Surface nano-hardness and microstructure of a single crystal nickel base superalloy after laser shock peening, Optics & Laser Technology, 91, 2017, 116-119. sG.X. Lu, J.D. Liu, Y.Z. Zhou, T. Jin, X.F. Sun, Z.Q. Hu, Differences in the micromechanical properties of dendrites and interdendritic regions in superalloys, Philosophical Magazine Letters, 96(12), 2016, 461-468. sG.X. Lu, J.D. Liu, H.C. Qiao, C.Y. Cui, Y.Z. Zhou, T. Jin, J.B. Zhao, X.F. Sun, Z.Q. Hu, The local microscale reverse deformation of metallic material under laser shock, 19(2) Advanced Engineering Materials, 2016, 1600672. sG.X. Lu, J.D. Liu, H.C. Qiao, G.L. Zhang, C.Y. Cui, Y.Z. Zhou, T. Jin, J.B. Zhao, X.F. Sun, Z.Q. Hu, Microscopic surface topography of a wrought superalloy processed by laser shock peening, Vacuum, 130, 2016, 25-33. sG.X. Lu, J.D. Liu, H.C. Qiao, Y.Z. Zhou, T. Jin, X.F. Sun, Z.Q. Hu, Nonuniformity of morphology and mechanical properties on the surface of single crystal superalloy subjected to laser shock peening, Journal of Alloys and Compounds, 658, 2016, 721-725. s卢国鑫, 金涛, 周亦胄, 赵吉宾, 刘纪德, 乔红超, 孙晓峰, 激光冲击强化在高温合金材料应用上的研究进展, 中国有色金属学报, 28(9), 2018, 1755-1764. s卢国鑫, 陆峰, 一种定性判断3D残余应力场测量值的新思路, 中国腐蚀与防护学报, 34(3), 2014, 283-286. s卢国鑫, 宋颖刚, 王仁智, 王强, 王欣, 300M 钢喷丸强化残余应力场的数值模拟, 中国表面工程, 26(4), 2013, 72-76. 部分代表性发明专利: •卢国鑫, 李恒, 季忠, 杉冈幸次, 姚倡锋, 李金山, 赵国群. SINGLE-BEAM DOUBLE-PHYSICAL-EFFECT COORDINATING AND DISTRIBUTING METHOD APPLICABLE TO UNIFORM LASER SHOCK AND APPLICATION THEREOF, US17675088, 2022 •卢国鑫, 季忠, 王佃刚. METHOD FOR ROUGHENING SURFACE OF METAL MATERIAL BY USING LASER SHOCK FORMING TECHNOLOGY AND APPLICATION THEREOF, US17618150, 2020 •卢国鑫, 田野, 鲁艳红. 一种焊缝界面结构的激光超声确定方法及其应用, ZL202111039451.2, 2021 •卢国鑫. 一种基于变化离焦量的不等强度激光冲击加工方法, ZL202110918764.9, 2021 •卢国鑫, 王强, 罗学昆, 季忠, 王佃刚, 王欣, 赵国群. 一种用于构件连接的高强度小孔的制备方法孔的制备方法,ZL202110873094.3, 2021 •卢国鑫, 高荣, 王欣, 李恒, 姚倡锋, 李金山. 一种载荷传递式不等强度激光冲击方法, ZL202011548746.8, 2020 •卢国鑫. 一种基于激光冲击波的均匀表面强化方法, ZL202010014492.5, 2020 •卢国鑫, 季忠. 一种激光冲击成形叠层复合材料的方法及其应用, ZL201911001612.1, 2019 •卢国鑫, 张永康, 林超辉. 一种多层激光冲击强化方法及装置, ZL201810662095.1, 2018 •卢国鑫, 张永康. 一种变入射角度的激光冲击强化方法, ZL201810325591.8, 2018 部分科研、教学获奖: ‣2022年中国表面工程协会科学技术贡献奖,人物奖,1/1,中国表面工程协会,2022.12; ‣第十三届山东发明创业奖、创新奖(发明创新奖),一等奖,1/1,山东发明协会,2022.12; ‣2022年中国材料研究学会科学技术奖(技术发明奖),二等奖,1/7,中国材料研究学会,2022.11; ‣2021年度山东省光学工程学会优秀青年科技奖,人物奖,1/1,山东省光学工程学会,2022.5; ‣2021年度金沙js青年教师教学比赛,三等奖,1/1,金沙js,2022.2 |