| 李润声 |
讲师 硕士生导师 | |
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邮箱:lirunsheng@upc.edu.cn 电话:无 办公地点:工科E619 | |
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2012.09-2016.07 | 华中农业大学机械电子工程,工学学士 |
2016.09-2022.07 | 华中科技大学机械工程,工学博士(直博)
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2022.09-至今 | 中国石油大学(华东),机电工程学院机电系,讲师,硕士生导师 |
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电弧增材制造(3D打印):路径规划、数值模拟、材料表征、机器学习 | |
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本科生《智能物联制造系统与决策》
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[1] 山东省自然科学基金,2024.01-2026.12,15万,主持,在研 [2] 青岛市自然科学基金,2023.07-2025.06,10万,主持,在研 [3] 中央高校基本业务科研费,2022.09-2025.09, 15万,主持,在研 [4] GF科技173项目,2023.06-2025.06,3300万,参与,在研 [5] 民机科研专项计划,2018.01-2021.12,2370万,参与(核心骨干),结题 [6] JPPT项目,2018.01-2021.12,5760万,参与,结题
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[1] 铝合金空簧安装梁件增材制造,中车青岛四方机车车辆股份有限公司(TY2206QDSFSC03),2022.03-2022.06
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发表SCI论文30余篇,其中一作/通讯10余篇,h-index=12,代表性论文如下: [1] Microstructure and mechanical properties of 2319 aluminum alloy deposited by laser and cold metal transfer hybrid additive manufacturing.Journal of Materials Research and Technology, 2024. 26:6342-6355(中科院一区TOP; IF=6.4) [2] Review on field assisted metal additive manufacturing. International Journal of Machine Tools & Manufacture, 2023. 104032. (中科院一区TOP; IF=14.0; ESI高被引) [3] Deep learning based online metallic surface defect detection method for wire and arc additive manufacturing. Robotics and Computer-Integrated Manufacturing. 2023, 80: 102470. (中科院一区TOP; IF=10.4) [4] Microstructures, heat treatments and mechanical properties of AerMet100 steel fabricated by wire arc additive manufacturing with micro rolling. Additive Manufacturing, 2022, 56: 102885. (中科院一区TOP; IF=11.0) [5] Research on microstructure and mechanical properties of hybrid plasma arc and micro-rolling additive manufacturing of Inconel 718 superalloy. Rapid PrototypingJournal, 2022, 28(8):1509-1519 [6] Effect of wire composition on microstructure and properties of wire and arc additive manufactured ZAlCu5MnCdVA aluminum alloy. Rapid Prototyping Journal, 2022, 29(4): 697-708. [7] Effect of path strategy on residual stress and distortion in laser and cold metal transfer hybrid additive manufacturing. Additive Manufacturing, 2021, 46: 102203. (中科院一区TOP; IF=11.0) [8] Rapid surface defects detection in wire and arc additive manufacturing based on laser profilometer. Measurement, 2021, 189:110503. [9] Optimization of the geometry for the end lateral extension path strategy to fabricate intersections using laser and cold metal transfer hybrid additive manufacturing. Additive Manufacturing, 2020, 36:101546 (中科院一区TOP; IF=11.0) [10] End lateral extension path strategy for intersection in wire and arc additive manufactured 2319 aluminum alloy. Rapid Prototyping Journal, 2020,26(2):360-369 [11] Mechanism and technology evaluation of a novel alternating-arc-based directed energy deposition method through polarity-switching self-adaptive shunt. Additive Manufacturing, 2023, 67: 103504. (中科院一区TOP; IF=11.0) [12] Comparison of Energy Consumption between Hybrid Deposition & Micro-Rolling and Conventional Approach for Wrought Parts. Journal of Cleaner Production, 2020. (中科院一区TOP; IF=11.1) 个人学术主页:https://www.researchgate.net/profile/Runsheng-Li-2
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微铸锻铣复合超短流程制造. 北京:科学出版社, 2023.
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[1] 激光-电弧多枪协同复合增材制造飞机承力框的方法及产品. CN202011471667.1 [2] 基于机器学习的增材制造残余应力与变形预测方法和系统. CN202110694912.3 [3] 增材制造表面及内部缺陷与形貌复合检测方法及装置. CN201610841697.4 [4]一种基于有限元网格驱动的结构件的增材制造方法. CN202111346259.8 [5] 一种机器手-数控机床增减材复合制造系统及方法. CN201911006135.8 [6] 一种增材制造成形状态预测控制方法及系统. CN202110973673.5 [7] 基于机器学习的增材制造尺寸预测及工艺优化方法及系统. CN202110790025.6 [8] 一种电磁冲击复合电弧增材制造的装置及方法. CN201911354367.2 [9] 一种增减材制造中等值线加工轨迹的规划方法. CN202010944836.2 [10] 一种电磁辅助在线微观组织检测及调控系统及方法. CN201911314260.5, AU2020281175A1, CA3101923A1, JP2021098894A, US20210187670A1, EP3838454A1 [11] 一种增材制造用基板的温度控制装置及控制方法. CN202110923624.0 [12] 一种增材制造零件表面缺陷在线检测方法及系统. CN202110996952.3 [13] 一种用于电弧增材制造的焊道建模方法、设备及系统. CN201911347776.X, JP2022518882A, AU2020410866A1, EP3939734A1, WO2021129671A1, CA3127257A1 [14] 一种新型旁丝振动增强电弧增材制造装置. CN202211391737.1 [15] 一种激光送粉修复气氛保护装置. CN202110337262.7 ……
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[1] System and method for detecting and regulating microstructure online with electromagnetic assistance, Publication: 2021.06.24, 美国, US20210187670A1. [2] Welding bead modeling mehtod for wire-arc additive manufacturing, device therefor and system therefor. Publication: 2022.05.26, 美国,US20220161344A1. [3] Wire arc additive manufacturing-spinning combined machining device and method. Publication: 2023.03.09, 美国, US20230072565A1.
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[1] GB/T39253-2020,《增材制造金属材料定向能量沉积工艺规范》, 中华人民共和国国家标准 [2] GB/T 42619-2023,《增材制造工艺参数库构建规范》, 中华人民共和国国家标准. [3] GB/T 42621-2023,《增材制造定向能量沉积-铣削复合增材制造工艺规范》, 中华人民共和国国家标准 [4] GB/T 42622-2023,《增材制造激光定向能量沉积用钛及钛合金粉末》, 中华人民共和国国家标准
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[1] 第二届大飞机增材制造创新应用大赛,一等奖,2024 [2] The British Invention Show (伦敦发明展), Double Gold (双金奖),2019 [3] 增材制造全球创新大赛,冠军奖,2018 [4] 中国创新方法大赛湖北赛区,三等奖,2021 [5] 湖北省优秀学士毕业论文,2016
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[1] 中国机械工程学会焊接分会青年委员 [2] 中国机械工程Additive Manufacturing Frontiers杂志青年编委 [3] Advanced Manufacturing杂志青年编委 | |
主讲课程
