[1] Lyuyuan Wang, Yuan Chen, et al. Structural transformation of Cu-coated multi-walled carbon nanotubes subjected to high-energy laser irradiation[J]. Optics and Laser Technology, 2024,171:110420.
[2] Lyuyuan Wang, Yanbing Guo, et al. Microstructure and wear properties of carbon nanotubes reinforced WE43 composite coating fabricated by laser directed energy deposition[J]. Surface and Coatings Technology, 2024, 476:130287
[3] Lyuyuan Wang, Jian Huang, et al. Effects of Aging Treatment on The High-Temperature Mechanical Behavior of Laser-Welded High-Strength Mg-Gd-Y Alloy[J]. Journal of Materials Engineering and Performance, 2021,30(8):5898–5904
[4] Lyuyuan Wang, Jian Huang, et al. Influence of heat treatment on corrosion behavior of laser welded Mg-Gd-Y fusion zones[J]. Anti-Corrosion Methods and Materials,2020,67(4):337-343
[5] 王绿原,马佳云,等.Mg-Gd-Y-Zr合金TIG电弧熔覆层微观组织演变及力学性能研究[J].表面技术,2020,49(10):188-197
[6] Lyuyuan Wang, Jian, Huang, et al. Precipitates evolution in the heat affected zone of Mg-Gd-Y-Zr alloy in T6 condition during laser welding[J].Materials Characterization, 2019, 154:386-394.
[7] Lyuyuan Wang, Jian Huang, et al. High temperature tensile properties of laser-welded high strength Mg-Gd-Y-Zr alloy in as welded and heat treated conditions. Welding in the world. 2017, 61(2): 299–306.
[8] Lyuyuan Wang, Jian Huang, et al. Microstructure evolution in the fusion zone of laser welded Mg–Gd–Y–Zr alloy during solid solution and aging process. Materials Characterization. 2016,118:486-493.
[9] Lyuyuan Wang, Jian Huang, et al. Microstructure and strengthening mechanism of fiber laser welded high strength Mg-Gd-Y-Zr alloy. Journal of Materials Engineering and Performance. 2016,25(10): 4506-4513.
焊接数字化智能化等相关技术成果已在中建安装集团、中国航发南方工业、江南造船、重庆铁马、潞安化机、蓝科石化、中车大同、南京钢铁等代表性制造企业实现应用,覆盖航空、武器装备、承压设备、特种车辆等重点行业。
授权专利及软著
1. 基于弧压和工艺库的管-法兰打底焊过程调控方法 南京理工大学 ZL202310598669.4
2. 基于弧压和熔池视觉的机器人打底焊成形缺陷监测方法 南京理工大学 ZL202311155593.4
3. 管-法兰微分阵列式划分及自适应焊接路径规划方法 南京理工大学 ZL202310520973.7
4. 基于千兆网卡传输的超声波无损检测软件V1.0 南京理工大学 软件著作权 2020SR0326250
5.大电流(埋弧焊)焊接参数采集软件V1.0 南京理工大学 软件著作权 2020SR0077005
6.多层道厚壁构件焊接任务数字化管控系统V1.0 南京理工大学 软件著作权 2021SR0028397
7.特种车辆制造数字化管控系统(终端软件)V1.0 南京理工大学 软件著作权 2021SR1882892
8.特种车辆制造数字化管控系统(服务器端软件)V1.0 南京理工大学 软件著作权 2021SR1884693
9.面向电弧增材制造的工业机器人控制程序软件V1.0 南京理工大学 软件著作权 2021SR0972159
10.大型金属构件机器人电弧增材制造总控系统软件V1.0 南京理工大学 软件著作权 2021SR0972160
11.数字化小组立焊接生产线总控软件V1.0 南京理工大学 软件著作权 2021SR1546531