 | 职称 | 教授 |
办公室 | 机械楼 | |
联系电话 | ||
gfsun@seu.edu.cn |
学习经历 |
2000年9月-2004年7月,东北大学尖子班,材料科学与工程,本科/学士; |
2004年9月-2009年7月,东北大学,材料学,硕博连读研究生/博士; |
2007年10月-2008年10月,美国密歇根大学,工学院机械系,激光辅助智能制造中心(CLAIM),联合培养博士,师承于美国工程院院士Jyoti Mazumder教授。 |
工作经历 |
2009年7月-2014年3月:江苏大学,机械工程学院,讲师、副教授、硕士生导师; |
2010年4月-2010年10月:美国密歇根大学,工学院机械系,激光辅助智能制造中心(CLAIM),研究学者(Research scholar) |
2014年3月-2017年4月:东南大学,机械工程学院机制系,副教授/硕导; 2017年4月-至今:东南大学,机械工程学院机制系,教授/硕导/博导 |
教授课程 |
工程材料及制造技术基础 |
先进制造技术(全英文) |
| 先进激光制造技术 |
研究方向 |
1. 水下激光增材制造、 激光表面工程(激光熔覆、激光合金化、激光熔凝、激光重熔)、激光焊接 |
2. 激光加工过程中熔池视觉检测、缺陷预测、光谱分析检测、闭环控制等 |
3. 激光与材料相互作用、冶金学原理、微观组织演变、相变、热/动力学原理、残余应力分析、疲劳、腐蚀、磨损、断裂失效机制。 欢迎机械类、材料类、光学、控制等专业的学生报考研究生、博士生。 |
获奖情况 |
江苏省“”六大人才高峰“高层次人才” 中国机械工业联合会一等奖 |
论文著作 |
书籍章节 |
[1]GF Sun, R Zhou. Chapter 3: Mechanical properties improvement of metallic rolls by laser surface alloying. In the Book Laser surface engineering: Processes and applications. Edited by Jonathan Lawrence and David Waugh. Published by Woodhead Publishing Limited. 2015, 59-96. |
期刊论文 |
[44] ZD Wang, GF Sun*, MZ Chen, Y Lu, SB Zhang, HF Lan, KD Bi, ZH Ni*. Investigation of the underwater laser directed energy deposition technique for the on-site repair of HSLA-100 steel with excellent performance. Additive Manufacturing, 2021,39:101884. [43] ZD Wang, GF Sun*, Y Lu, MZ Chen, HF Lan, KD Bi, ZH Ni*. High-performance Ti-6Al-4V with graded microstructure and superior properties fabricated by powder feeding underwater laser metal deposition. Surface & Coatings Technology, 2021, 408: 126778 (SCI) [42] MZ Chen, Y Lu, ZD Wang, HF Lan, GF Sun*, ZH Ni*. Melt pool evolution on inclined NV E690 steel plates during laser direct metal deposition. Optics & Laser Technology, 2021, 136: 106745. [41] Y Lu, GF Sun*, ZD Wang, BY Su, YK Zhang, ZH Ni. The effects of laser peening on laser additive manufactured 316L steel. The International Journal of Advanced Manufacturing Technology,2020, 107: 2239-2249 (SCI) [40] ZD Wang, GF Sun*, Y Lu, MZ Chen, KD Bi, ZH Ni. Microstructural characterization and mechanical behavior of ultrasonic impact peened and laser shock peened AISI 316L stainless steel. Surface & Coatings Technology, 2020, 385: 125403. (SCI). [39] P Yang, GF Sun*, Y Lu, ZH Ni. Monitoring of optical emissions in laser cladding of 316L stainless steel. Applied Optics, 2019, 58: 8733-8742. (SCI). [38] GF Sun*, XT Shen, ZD Wang, MJ Zhan, S Yao, R Zhou ZH Ni. Laser metal deposition as repair technology for 316L stainless steel: Influence of feeding powder compositions on microstructure and mechanical properties. Optics and Laser Technology, 2019, 109: 71-83. (SCI). [37] Y Lu, GF Sun, XF Xiao, J Mazumder. Online stress measurement during laser aided metallic additive manufacturing, Scientific Reports,2019,9: 7630. [36] Y Lu, GF Sun*, ZD Wang, YK Zhang, BY Su, AX Feng, ZH Ni. Effects of electromagnetic field on the laser direct metal deposition of austenitic stainless steel. Optics and Laser Technology, 2019,119: 105586 [35] MJ Zhan, GF Sun*, ZD Wang, XT Shen, Y Yan, ZH Ni. Numerical and experimental investigation on laser metal deposition as repair technology for 316L stainless steel. Optics and Laser Technology, 2019,118: 84-92. [34] GF Sun*, S Yao, ZD Wang, XT Shen, Y Yan, R Zhou ZH Ni. Microstructure and mechanical properties of HSLA-100 steel repaired by laser metal deposition. Surface & Coatings Technology, 2018, 351: 198-211. (SCI). [33]ZD Wang, Y Lu, GF Sun*, ZH Ni. Effect of Ultra-sonic Peening on Laser-Arc Hybrid Welded NV E690 Steel. Journal of Laser Applications,2018, 30: 032403. (SCI). [32] GF Sun*, ZD Wang, Y Lu, R Zhou, ZH Ni, X Gu, ZG Wang. Numerical and experimental investigation of thermal field and residual stress in laser-MIG hybrid welded NV E690 steel plates. Journal of Manufacturing Processes, 2018, 34: 106-120. (SCI) [31] R Zhou, ZP Tong, GF Sun*, ZH Ni, W Zhang. Microstructure and wear behaviour of 38CrMoAl steel laser-processed with addition of MoS2 or WS2. Lasers in Engineering, 2018, 41: 1-25. (SCI) [30] R Zhu, YK Zhang, GF Sun*, XT Shen, P Li. Finite element analysis of surface roughness generated by multiple laser shock peening. Rare Metal Materials and Engineering, 2018, 47: 33-38. (SCI) [29] AM Xiao, GF Sun*,ZP Tong, SY Dong, SX Yan, JZ Lu, YK Zhang. Effect of laser shock processing on microstructure, residual stress and wear-fracture behavior of laser deposited Fe-based alloy coating. Lasers in Engineering, 2018, 39: 175-194. (SCI) [28] 孙桂芳*, 陶丰, 姜波, 姬文宣, 牛牧遥, 沈旭婷. 医用不锈钢激光合金化铜钴合金的组织及其生物医学性能. 中国激光, 2018, 45: 1202008. (EI). [27]JF Wu, SK Zou, YK Zhang, SL Gong, GF Sun*, ZH Ni, ZW Cao, ZG Che, AX Feng. Microstructures and mechanical properties of β forging Ti17 alloy under combined laser shock processing and shot peening. Surface & Coatings Technology, 2017, 328: 283-291 (SCI). [26] GF Sun*, ZD Wang, Y Lu, R Zhou, ZH Ni. Investigation on microstructure and mechanical properties of NV E690steel joint by laser-MIG hybrid welding. Materials and Design, 2017, 127: 297-310. (SCI) [25]朱然, 张永康, 孙桂芳*, 李普, 张胜标, 倪中华. 三维平顶光束激光冲击2024铝合金的残余应力场数值模拟. 中国激光, 2017, 44(8): 0802007 (EI). [24] GF Sun*, XY Fang, ZP Tong, ZH Ni, Y Lu. Effect of laser shock peening on aluminum alloy laser-welds. Surface Engineering, 2016, 32: 943-948. (SCI) [23]李倩, 孙桂芳*, 卢轶, 张永康. 光纤激光水下切割1 mm厚304不锈钢的实验研究. 中国激光, 2016, 43:0602001-10 (EI). [22] GF Sun*, ZP Tong, XY Fang, XJ Liu, ZH Ni, W Zhang.Effect of scanning speeds on microstructure and wear behavior of laser processed NiCr-Cr3C2-MoS2-CeO2 on 38CrMoAl steel. Optics & Laser Technology, 2016, 77: 80-90. (SCI) [21] Y. Lu, GF Sun, D.P. Wen, Y.K. Zhang, A.X. Feng. Effects of applying electric and magnetic fields on laser drilling. The International Journal of Advanced Manufacturing Technology, 2016, 84: 2293-2300 (SCI) [20] GF Sun*, R Zhou, JZ Lu, J Mazumder. Evaluation of defect density, microstructure, residual stress, elastic modulus, hardness and strength of laser deposited AISI 4340 steel. Acta Materialia, 2015, 84: 172-189. (SCI) |
[19]GF Sun*, K Wang, R Zhou, AX Feng, W Zhang. Effect of different heat-treatment temperatures on the laser cladded M3:2 high-speed steel. Materials and Design, 2015, 65: 606-616. (SCI) |
[18]GF Sun*, K Wang, R Zhou, ZP Tong, XY Fang. Effect of annealing on microstructure and mechanical properties of laser deposited Co-285 + WC coatings. Optics & Laser Technology, 2015, 66: 98-105. (SCI) |
[17]GF Sun*, YK Zhang, MK Zhang, R Zhou, K Wang, CS Liu, KY Luo. Microstructure and corrosion characteristics of 304 stainless steel laser-alloyed with Cr-CrB2. Applied Surface Science, 2014, 295: 94-107. (SCI) |
[16]GF Sun*, R Zhou, YK Zhang, GD Yuan, K Wang, XD Ren, DP Wen. Microstructure evolution and lubricant wear performance of laser alloyed layers on automobile engine chains. Optics & Laser Technology, 2014, 62: 20-31. (SCI) |
[15]R Zhou, GF Sun*, CS Liu, XD Ren, K Wang, AX Feng, XP Bu. Effects of yttrium on microstructure and wear properties of laser DMD Co-285+WC coatings. Lasers in Engineering, 2015, 31(3-4): 161-178. (SCI) |
[14]MK Zhang, GF Sun*,YK Zhang, CS Liu, XD Ren, AX Feng, W Zhang. Laser surface alloying of Cr-CrB2 on SUS 304 stainless steel. Lasers in Engineering, 2014, 27(3-4): 231-245. (SCI) [13]李鹏, 孙桂芳*, 张尉, 刘卫祥, 张永康, 张满奎. 不锈钢表面激光合金化Mn-Al2O3强化层的组织及性能. 中国有色金属学报, 2012,22(8):2253-2259。(EI) |
[12]GF Sun*,S Bhattacharya, GP Dinda, A Dasgupta, J Mazumder. Microstructure evolution during laser aided direct metal deposition of alloy tool steel, Scripta Materialia, 2011, 64: 454-457. (SCI) |
[11]GF Sun*,S Bhattacharya, GP Dinda, A Dasgupta, J Mazumder. Influence of processing parameters on lattice parameters in laser deposited tool alloy steel. Materials Science and Engineering: A, 2011, 528: 5141-5145. (SCI) |
[10]GF Sun*, R Zhou, P Li, AX Feng, YK Zhang. Laser surface alloying of C-B-W-Cr powders on nodular cast iron rolls. Surface & Coatings Technology, 2011, 205: 2747-2754. (SCI) |
[9]GF Sun, CS Liu, LJ Song, J Mazumder. Microstructure and wear behavior of laser-aided direct metal deposited Co-285 and Co-285 +WC coatings. Metallurgy and Materials Transactions: A,2010, 41: 1592-1603. (SCI) |
[8]GF Sun*, YK Zhang, CS Liu, KY Luo, XQ Tao, P Li. Microstructure and wear resistance enhancement of cast steel rolls by laser surface alloying NiCr-Cr3C2. Materials and Design, 2010,31(6): 2737-2744. (SCI) |
[7]GF Sun*, YK Zhang, CS Liu, P Li, XQ Tao. Microstructure and wear resistance enhancement of semi-steel rolls by laser surface alloying of NiCr-Cr3C2. Lasers in Engineering, 2010, 19: 347-361. (SCI) |
[6]GF Sun*, YK Zhang, CS Liu. Effects of laser surface re-melting on the microstructure and hardness of laser deposited Co-285+WC coatings. Lasers in Engineering, 2010, 20: 9-20. (SCI) [5] 孙桂芳, 梁京, 陈岁元, 刘常升. 碳钢上激光辅助沉积Co-285合金的组织及性能. 中国有色金属学报, 2010,20(2):274-281。(EI) |
[4]S Huang, JZ Zhou, J Sheng, JZ Lu, GF Sun, XK Meng, LD Zuo, HY Ruan. Effects of laser energy on fatigue crack growth properties of 6061-T6 aluminum alloy subjected to multiple laser peening. Engineering Fracture Mechanics, 2013, 99: 87-100. (SCI) |
[3]JZ Lu, KY Luo, YK Zhang, GF Sun, YY Gu, JZ Zhou, XD Ren, XC Zhang, LF Zhang, KM Chen, CY Cui, YF Jiang, AX Feng, L Zhang. Grain refinement mechanism of multiple laser shock processing impacts on ANSI 304 stainless steel. Acta materialia,2010, 58(16): 5354-5362. (SCI) |
[2]HY Wang, DW Zuo, G Chen, GF Sun, XF Li, X Cheng. Hot corrosion behaviour of low Al NiCoCrAlY cladded coatings reinforced by nano-particles on a Ni-base super alloy. Corrosion science, 2010, 52: 3561-3567. (SCI) |
[1]JZ Lu, KY Luo, YK Zhang, CY Cui, GF Sun, JZ Zhou, L Zhang, J You, KM Chen, JW Zhong. Grain refinement of LY2 aluminum alloy induced by ultra-high plastic strain during multiple laser shock processing impacts. Acta materialia, 2010, 58: 3984-3994. (SCI) |
会议论文 |
[4]R Zhou, GF Sun*, KK Chen, YQ Tong. Effect of tempering on microstructure and mechanical properties of cast iron rolls laser alloyed with C-B-W-Cr. 2014 Global Conference on Polymer and Composite Materials (PCM 2014),IOP Conf. Series: Materials Science and Engineering,2014, 62: 012015-6. (EI) |
[3]GF Sun*, Zhou Rui, Li Peng, Zhang Yongkang. Effects of processing parameters on the laser deposited Co-285 + WC coatings. Key Engineering Materials,2011, 464: 568-571. (EI) |
[2]GF Sun, Liu Changsheng, Liang Jing, Zhou Junhua, Tao Xingqi. Laser surface alloying of NiCr-Cr3C2 and C-B-W-Cr powders on nodular cast iron rolls. Advanced Materials Research, 2009, 79-82: 1459-1462. (EI) |
[1]GF Sun, Liu Changsheng, Guru P Dinda, Jyoti Mazumder. Laser-AidedDirect Metal Deposition of Co-285. ICALEO, 27th International Congress on Application of Lasers & Electro-Optics, October 20-23, 2008. Pechanga Resort & Casino, Temecula, CA, USA. (ISTP) |
科研项目 | ||||
项目名称 | 项目类别 | 项目时间 | 工作类别 | 项目金额 |
激光增材制造镍基高温合金组织结构演变及其调控 水下激光增材制造海工高强钢工艺、冶金原理及性能研究 激光焊接试样缺陷检测及表征 XXX | 173重点基金 国家重点实验室开放课题 高校委托课题 XXX | 2021.10-2024.10 2020.05-2022.04 2018.12-2020.12 2018.01-2020.12 | 第二负责人 负责人 负责人 第二负责人 | 120万元 8万元 8.4万元 530万元 |
| XXX | XX科技委前沿科技创新特区 | 2017.07-2019.06 | 负责人 | 50万元 |
激光增材构件组织与性能的激光喷丸调控机理 XXX的水下激光增材再制造装置与工艺研究 | 江苏省六大人才高峰高层次人才 装备预研教育部联合基金 | 2016.09-2019.08 2016.01-2017.12 | 负责人 负责人 | 4万元 80万元 |
| 超大型海工装备低应力无余量焊接理论与方法研究 | 江苏省产学研前瞻性联合研究 | 2015.07-2017.06 | 负责人 | 35万元 |
| 电磁场辅助激光成形构件冶金缺陷及力学行为研究 | 省部级 | 2016.02-2017.12 | 负责人 | 15万元 |
| 激光成形金属构件冶金缺陷形成机理及缺陷力学行为研究 | 省部级 | 2015.03-2017.02 | 负责人 | 8万元 |
省部级 | 2015.07-2017.06 | 负责人 | 7万元 | |
| 基于微纳复合粉体的激光熔覆组织的演变特征及强化机制 | 国家自科青年科学基金项目 | 2013.01-2015.12 | 负责人 | 25万元 |
| 高锰钢基复合涂层的激光合金化原位再制造技术研究 | 江苏省自然科学基金面上项目 | 2012.07-2014.12 | 负责人 | 10万元 |
| 激光直接沉积功能梯度涂层的成型机理及其关键问题研究 | 博后特别资助项目 | 2012.3-2013.3 | 负责人 | 10万元 |
| 激光直接沉积功能梯度强化层的工艺及机理研究 | 教育部博士点新教师基金 | 2012.02-2015.01 | 负责人 | 4万元 |
| 高性能、节能型塑料加工技术及设备 | 江苏省企业博士集聚计划 | 2011.01-2012.12 | 负责人 | 20万元 |
| 激光直接沉积强化混料机关键件的工艺及机理研究 | 博士后面上项目 | 2010.3-2012.3 | 负责人 | 3万元 |
| 热轧辊工作层材料的激光辅助金属沉积成形与组织性能 | 国家自科面上项目 | 2011.01-2013.12 | 子课题负责人 | 7.2万元 |
专利 | ||
专利号 | 专利名称 | 专利类型 |
CN202010392191.6 CN202010836724.5 CN202010878134.9 CN202010009150.4 CN202010305769.X CN202010305094.9 CN202010305092.X CN202010869022.7 CN202010879064.9 CN202010877698.0 ZL201610855857.0 ZL201910039760.6 ZL201710721496.5 ZL201610612166.8 ZL201610599791.3 ZL201610608845.8 ZL201610179706.8 ZL201610183913.0 ZL201610179839.5 ZL201610081496.9 ZL201310122286.6 ZL201310072592.3 | 具有自修复及水下设施修复功能的海洋装备及方法 一种用于水下船体表层缺陷修复的激光熔覆装置及方法 可预热回火的中心送粉式熔覆头 能够进行多路同步送粉增材的激光熔覆头 水下超声频微锻造原位强化激光改性层装置和方法 轴承钢构件及其表面激光熔凝-离子注入复合强化方法 双超声辅助水下激光增材装置和方法 一种具有外保护气结构的激光熔覆同轴送粉喷嘴 能够进行多路同步送粉增材的激光熔覆头 带有鳍式散热片的激光熔覆冷却装置 一种水下设施激光增材修复的方法与装置 一种含有移动气氛室的激光头以及激光增材有色金属的方法 多点激光冲击成形的有限元模拟方法 一种降低激光增材件气孔率的表面强化方法 一种激光增材薄壁件激光喷丸应力调控的方法 一种超大型海工装备低应力无余量焊接方法和装置 模拟海洋环境下激光切割的试验装置 一种水下激光切割用排水装置 一种水下激光切割装置与方法 一种电磁场辅助激光增材制造的装置 一种金相试样预磨机 一种改善层基或膜基结合状态的飞秒激光表面预处理方法 | 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 发明专利 |
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