教师名录
研究领域:特种环境氛围(水下)激光增材制造理论、技术、装备、应用;材料疲劳、腐蚀、磨损、断裂等行为分析
项目:GF基础科研重点项目、JKW 173基金、JKW 163计划、ZF基金青年人才项目、国家自然科学基金、江苏省重点研发计划产业前瞻与关键核心技术重点项目课题、江苏省自然科学基金、江苏省产学研前瞻项目、 广东省海上风电联合基金面上项目、深圳市科技重大专项项目、国家博后面上及特别资助项目等
专著、论文、软著、专利:
出版水下激光增材制造全英文专著1本,英文书籍章节一章。
以第一作者或通讯作者在行业期刊上发表SCI检索论文90余篇,EI检索论文10余篇。
公开软件著作权2项。
公开国家发明专利67项,授权 30项、国防专利 3 项。
参与制定增材制造团体标准2项。
学术兼职:中国有色金属学会增材制造技术专业委员会委员、机械工程学会高级会员、激光加工专委会会员、全国材料新技术发展研究会理事、Laser Eng.编委。获中国机械工业科学技术一等奖 1 项、江苏省六大人才高峰高层次人才项目 1 项。
学生获奖情况:
王占栋:2018年江苏省优秀硕士论文、省优秀毕业生
国家研究生奖学金: 博士生:王占栋,杨坤
硕士生:王昆、王世彬,吴二柯
在站博后:张文谦、Kirill Osintsev
在读博士:陈明智、李睿、贾志远、吕秉华
在读硕士:吴二柯、赵凯、叶志宇
毕业生去向:
博士:
吴俊峰 北京航空制造工程研究所(625所)
朱然 山东科技大学
裴旭 淮阴工学院
苏波泳 南通大学
卢轶 南京林业大学
王占栋 南京林业大学(副高待遇引进)
杨坤 XXX
硕士:
2023届硕 王世彬 歌尔股份有限公司
2023届硕 林林杰 珠海通飞
2022届硕 严乾 hua为技术有限公司南京研究所
2022届硕 顾曹涵 北京百度网讯科技有限公司
2021届硕 陈明智 东南大学读博
2021届硕 王鹏飞 中国航发商用航空发动机有限责任公司
2020届硕 杨鹏 浙江大hua技术股份有限公司
2019届硕 姚赛 中国船舶集团有限公司第七二六研究所
2019届硕 张胜标 麻省大学阿姆赫斯特分校读博
2019届硕 詹明杰 中xing通讯
2019届硕 沈旭婷 中xing通讯
2018届硕 王占栋 东南大学读博
2017届硕 郇学东 舍弗勒(中国)有限公司
2016届硕 刘通 中汽创智科技有限公司
2016届硕 陈一山 苏州领略智能科技有限公司
2016届硕 李倩 金风科技股份有限公司
2016届硕 陆亚运 中国航空工业集团公司金城南京机电液压工程研究中心
2015届硕 房晓玉 北汽福田汽车股份有限公司
2015届硕 童照鹏 江苏大学
2014届硕 王昆 上海纳铁福传动系统有限公司
2013届硕 张满奎 乔治费歇尔精密机床(上海)分公司
2012届硕 李鹏 中航光电科技股份有限公司
更新于2024.3.22
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
工程材料及成形
先进激光制造技术(全英文)
Laser Advanced Manufacturing Technology and the experiment
中国有色金属学会增材制造技术专业委员会委员、机械工程学会高级会员、中国光学学会激光加工委员会会员、全国材料新技术发展研究会理事、Laser Eng.编委。
专著
[1] GF Sun, ZD Wang, CS Liu. Underwater Direct Metal Deposition.
[2] 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.
论文
2024
(89) R Li, B Han, ZD Wang, K Zhao, Y Shi, KD Bi, GF Sun*. Effects of TiC addition on the interface stability, microstructure and mechanical properties of IN718 fabricated by laser direct metal deposition: A combined experimental, DFT and MD study. Intermetallics, 2024, 168, 108268.
(88) K Yang, MZ Chen, K Zhao, ZY Jia, ZD Wang, RS Lu, GF Sun*. Tailoring of the microstructure and mechanical properties of high nitrogen steel repaired by underwater laser direct metal deposition. Metallurgy and Materials Transactions: B, 2024, 55B: 1176-1192.
(87) K Yang, MZ Chen, K Zhao, ZY Jia, ZD Wang, H Qi, GF Sun*. Research on gas pore formation and inhibition mechanism of high nitrogen steel during laser direct metal deposition. Optics & Laser Technology, 2024, 175: 110788.
(86) B Han, R Li, QY Pi, Y Shi, H Qi, GF Sun*, KD Bi. Deposit characteristics, morphology and microstructure regulation of single-track nickel-based alloy using quasi-continuous-wave laser direct energy deposition. Surface & Coatings Technology, 2024, 478: 130481.
(85) MZ Chen, ZD Wang, EK Wu, K Yang, K Zhao, JJ Shi, GF Sun*, EH Han. Electrochemical passivation behavior and surface chemistry of 316L stainless steel coatings on NV E690 steel fabricated by underwater direct metal deposition. Corrosion Science, 2024, 229: 111882.
(84) ZD Wang, MZ Chen, K Zhao, R Li, L Zong, SB Zhang, GF Sun*. Effect of different feedstocks on the microstructure and mechanical properties of HSLA steel repaired by underwater direct metal deposition. Materials Chemistry and Physics, 2024, 314: 128935.
(83) K Zhao, K Yang, MZ Chen, ZD Wang, EK Wu, GF Sun*. Optimization of process parameters for gas-powder flow behavior in the coaxial nozzle during laser direct metal deposition based on numerical simulation. The International Journal of Advanced Manufacturing Technology, 2024, 130: 3967-3982.
(82) ZD Wang, R Li, MZ Chen, K Yang, ZG Sun, XH Zhang, S Tang, GF Sun*. Enhanced wear and corrosion resistance of the laser direct metal deposited AISI 316L stainless steel by in-situ interstitial N alloying. Optics & Laser Technology, 2024, 171, 110381.
2023
(81) K Yang, MZ Chen, ZD Wang, K Zhao, LX Yu, GF Sun*. Influence mechanism of underwater hyperbaric environment on the corrosion behavior of high nitrogen steel fabricated by underwater laser direct metal deposition. Materials Today Communications, 2023, 37, 107614.
(80) R Li, B Han, K Zhao, ZD Wang, Y Shi, KD Bi, GF Sun*. Effects of TiC addition on the hot corrosion behavior of IN718 fabricated by laser direct metal deposition. Materials Chemistry and Physics, 2023, 308: 128167.
(79) K Yang, ZD Wang, MZ Chen, ZH Ni, H Qi, GF Sun*. How the underwater environment affects the melt pool solidification during underwater laser directed energy deposition of HNS steel? Journal of Manufacturing Processes, 2023, 101: 892-903.
(78) MZ Chen, K Yang, ZD Wang, K Zhao, EK Wu, JJ Shi, H Qi, GF Sun*. Corrosion performance of NV E690 steel and 316L stainless steel coating fabricated by underwater direct metal deposition. Corrosion Science, 2023, 219: 111232.
(77) Q Chai, X He, Y Xing, GF Sun*. Numerical study on the collision effect of particles in the gas-powder flow by coaxial nozzles for laser cladding. Optics and Laser Technology, 2023, 163: 109449.
(76) K Yang, MZ Chen, ZD Wang, H Qi, JD Bao, GF Sun*. Influence mechanism of underwater hyperbaric environment on nitrogen behavior, phase evolution, and mechanical properties of high nitrogen steel repaired by underwater laser direct metal deposition. Materials Science & Engineering A, 2023, 872: 144967.
(75) B Han, R Li, QY Pi, Y Shi, H Qi, KD Bi, GF Sun*. Prediction of deposit characteristics based on the discrete coaxial nozzle during laser direct metal deposition. Optics and Laser Technology, 2023, 158: 109385.
(74) MZ Chen, K Yang, ZD Wang, SB Wang, EK Wu, ZH Ni, JZ Lu, GF Sun*. Underwater laser directed energy deposition of NV E690 steel. Advanced Powder Materials, 2023, 2, 100095.
(73) LJ Lin, K Yang, MZ Chen, ZD Wang, EK Wu, KD Bi, Y Shi, GF Sun*. Effects of alloying elements X (Cr, Fe and Mo) on the interfacial properties of γ-Ni(110)/TiC(110) in TiC-particles reinforced NMCs: First-principles study. Optics and Laser Technology, 2023, 158: 108870.
2022
(72) 肖燕, 陈明智, 卢轶, 吴二柯, 张艳, 孙桂芳*. 航空光电雷达电机换向器激光沉积再制造. 中国表面工程, 2022, 35(4): 223-231.
(71) 王占栋, 王世彬, 吴二柯, 毕可东, 倪中华, 孙桂芳*. 水下定向能量沉积修复钛合金电化学腐蚀特性研究. 中国激光, 2022, 49(14): 1402806.
(70) R Zhou, GF Sun*. Laser alloying with Mn+Cr3C2 and Mn+NiCr-C for improved wear and corrosion resistance of stainless steel. Surface & Coatings Technology, 2022, 451: 129076.
(69) K Yang, MZ Chen, ZD Wang, SB Wang, Y Lu, ZH Ni, GF Sun*. Evolutions of microstructure and mechanical property of high nitrogen steel repaired by underwater directed energy deposition technique. Materials Science & Engineering A, 2022, 857: 144077.
(68) SB Wang, ZD Wang, K Yang, MZ Chen, EK Wu, ZH Ni, GF Sun*. Investigation of on-site repair of 18Ni300 by underwater laser direct metal deposition technique. Journal of Manufacturing Processes, 2022, 80: 909-919.
(67) EK Wu, ZD Wang, K Yang, MZ Chen, SB Wang, Y Lu, ZH Ni, GF Sun*. Microstructure and mechanical properties of underwater laser deposition remanufactured 316LN stainless steel at a pressure of 0.3 MPa. Optics and Laser Technology, 2022, 155: 108394.
(66) ZD Wang, K Yang, MZ Chen, Y Lu, SB Wang, EK Wu, KD Bi, ZH Ni, GF Sun*. High-quality remanufacturing of HSLA-100 steel through the underwater directed energy deposition in an underwater hyperbaric environment. Surface & Coatings Technology, 2022, 437, 128370.
(65) MZ Chen, K Yang, ZD Wang, SB Wang, Y Lu, ZH Ni, GF Sun*. Quasi-continuous-wave laser directed energy deposition on inclined NV E690 steel plates: melt pool and temperature evolution. Surface & Coatings Technology, 2022, 437, 128344.
(64) ZD Wang, SB Wang, K Yang, MZ Chen, KD Bi, ZH Ni, GF Sun*. In-situ SEM investigation on the fatigue behavior of Ti-6Al-4V ELI fabricated by the powder-blown underwater directed energy deposition technique. Materials Science & Engineering A, 2022, 838: 142783.
(63) GF Sun, ZD Wang, Y Lu, MZ Chen, K Yang, ZH Ni. Underwater laser welding/cladding for high-performance repair of marine metal materials: a review. Chinese Journal of Mechanical Engineering, 2022, 35:5.
(62) ZD Wang, K Yang, MZ Chen, Y Lu, KD Bi, GF Sun*, ZH Ni. Investigation of the microstructure and mechanical properties of Ti-6Al-4V repaired by the powder-blown underwater directed energy deposition technique. Materials Science & Engineering A, 2022, 831: 142186.
(61) Q Yan, K Yang, ZD Wang, MZ Chen, GF Sun*, ZH Ni. Surface roughness optimization and high-temperature wear performance of H13 coating fabricated by extreme high-speed laser cladding. Optics and Laser Technology, 2022, 149: 107823.
(60) CH Gu, Y Lu, MZ Chen, GF Sun*, ZH Ni*. A reweighting offset bin classification network for surface defect detection and location of metal components. Measurement, 2022, 187: 110166.
2021
(59) K Yang, ZD Wang, MZ Chen, HF Lan, GF Sun*, ZH Ni. Effect of pulse frequency on the morphology, microstructure, and corrosion resistance of high-nitrogen steel prepared by laser directed energy deposition. Surface & Coatings Technology, 2021, 421: 127450. (SCI)
(58) 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. (SCI)
(57) Q Chai, C Fang, XL Qiu, Y Xing*, GF Sun*. Modeling of temperature field and profile of Ni60AA formed on cylindrical 316 stainless steel by laser cladding. Surface & Coatings Technology, 2021, 428: 127865. (SCI)
(56) 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)
(55) Y Lu, GF Sun*, XF Xiao, WJ Ren, E Sprague, ZH Ni, J Mazumder. In situ monitoring of solidification mode, porosity and clad height during laser metal deposition of AISI 316 stainless steel. Journal of Manufacturing Processes, 2021, 68: 1705-1713. (SCI)
(54) 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. (SCI)
(53) 王鹏飞, 杨坤, 陈明智, 王占栋, 卢轶, 孙桂芳*, 倪中华*. 倾斜基板激光熔覆GH3536熔池形貌的仿真与实验研究. 中国激光, 2021, 1002121 (EI).
2020
(52) 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)
(51) 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)
2019
(50) 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).
(49) 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).
(48) Y Lu, GF Sun, XF Xiao, J Mazumder. Online stress measurement during laser aided metallic additive manufacturing, Scientific Reports, 2019, 9: 7630.
(47) 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
(46) 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.
2018
(45) 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).
(44) 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)
(43) 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).
(42) 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)
(41) 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)
(40) R Zhou, ZP Tong, GF Sun*, ZH Ni, W Zhang. Microstructure and wear behavior of 38CrMoAl steel laser-processed with addition of MoS2 or WS2. Lasers in Engineering, 2018, 41(1-3): 1-25. (SCI)
(39) SK Zou, JF Wu, YK Zhang, SL Gong, GF Sun*, ZH Ni, ZW Cao, ZG Che, AX Feng. Surface integrity and fatigue lives of Ti17 compressor blades subjected to laser shock peening with square spots. Surface & Coatings Technology, 2018, 347: 398-406. (SCI).
(38) BY Su, YK Zhang, GF Sun*, ZH Ni. Prediction of micro indentation depth of TC4 titanium alloy during laser shock processing. Japanese Journal of Applied Physics, 2018, 57, 122703-6. (SCI)
(37) 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).
(36) 苏波泳, 孙桂芳*, 裴旭, 朱然, 倪中华. 冲击波动态船舶特性对激光喷丸残余应力场的影响. 中国表面工程, 2018, 31: 15-22. (EI)
(35) 吴俊峰, 邹世坤, 张永康, 孙桂芳*, 倪中华, 车志刚, 曹子文. 激光冲击强化TC17叶片前缘模拟件的抗FOD性能研究. 稀有金属材料与工程, 2018, 11: 3359-3364. (SCI)
2017
(34) 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: 297-301. (SCI)
(33) 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).
(32) 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)
(31) JZ Lu, LJ Wu, GF Sun, Y Liu, CY Cui, XM Luo, KY Luo. Microstructural response and grain refinement mechanism of commercially pure titanium subjected to multiple laser shock peening impacts. Acta Materialia, 2017, 127: 252-266. (SCI)
2016
(30) 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)
(29) 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)
(28) 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)
(27) KY Luo, CY Wang, GF Sun, CY Cui, J Sheng, JZ Lu. Investigation and microstructural analyses of massive LSP impacts with coverage area on crack initiation location and tensile properties of AM50 magnesium alloy. Materials Science & Engineering A, 2016, 650: 110-118. (SCI)
(26) KY Luo, X Jing, J Sheng, GF Sun, Z Yan, JZ Lu*. Characterization and analyses on micro-hardness, residual stress and microstructure in laser cladding coating of 316L stainless steel subjected to massive LSP treatment. Journal of Alloys and Compounds, 2016, 673: 158-169. (SCI)
(25) 李倩, 孙桂芳*, 卢轶, 张永康. 光纤激光水下切割1mm厚304不锈钢的实验研究. 中国激光, 2016, 43: 0602001-10 (EI).
2015
(24) 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)
(23) 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)
(22) 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)
(21) 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)
2014
(20) 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)
(19) 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)
(18) 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)
(17) 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).
2011
(16) 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)
(15) 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)
(14) 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)
2010
(13) 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)
(12) 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)
(11) 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)
(10) 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)
(9) 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)
(8) HY Wang, DW Zuo, G Chen, GF Sun, XF Li, X Cheng. Hot corrosion behavior of low Al NiCoCrAlY cladded coatings reinforced by nano-particles on a Ni-base super alloy. Corrosion science, 2010, 52: 3561-3567. (SCI)
(7) 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)
(6) 孙桂芳, 梁京, 陈岁元, 刘常升. 碳钢上激光辅助沉积Co-285 合金的组织与性能. 中国有色金属学报, 2010, 20(2): 274-281(EI).
2008
(5) 孙桂芳, 刘常升, 陶兴启, 陈岁元. 高镍铬无线冷硬铸铁轧辊表面激光合金化的研究. 东北大学学报(自然科学版), 2008, 29(6): 845-848 (EI).
Conference Proceedings
(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*, R Zhou, P Li, YK Zhang. Effects of processing parameters on the laser deposited Co-285 + WC coatings. Key Engineering Materials, 2011, 464: 568-571. (EI)
(2) GF Sun, CS Liu, J Liang, JH Zhou, XQ Tao. 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, CS Liu, GP Dinda, J Mazumder. Laser-Aided Direct 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)
22. 深圳市科技创新委员会2023年度科技重大专项项目,KJZD20231023100510020, 海洋装备关键结构件水下原位激光增材修复技术及成套装备, 2024.01-2026.12。
21. 广东省海上风电联合基金面上项目,2023A1515240015,海上风电导管架表面高熵耐蚀涂层的水下激光增材原位再制造,2023.11-2026.10。
20. 江苏省重点研发计划产业前瞻与关键核心技术重点项目课题,BE2023026-2,航空航天大型结构固相增/减材复合制造智能化装备与关键技术研发——高强铝合金固相增/减材协同制造工艺优化与组织缺陷一体化调控,2023.07-2027.06。
19. 企业委托课题,特种熔覆对合金材料氮含量和存在状态的影响,2023.05-2024.05。
18. 企业委托课题,航空光电雷达电机磨损沟槽修复,2022.01-2022.12。
17. JKW173技术领域基金,2022-JCJQ-JJ-0117,高盐快冷水下环境激光在线修复形性调控研究,2022.10-2025.10。
16. JKW173技术领域基金,2021-JCJQ-JJ-0088,激光增材制造镍基高温合金组织结构演变及其调控2021.10-2024.10。
15. 国家重点实验室开放课题,2020RALKFKT005,水下激光增材制造海工高强钢工艺、冶金原理及性能研究,2020.05-2022.04。
14. 高校委托课题,激光焊接试样缺陷检测及表征,2018.12-2020.12。
13. GF基础科研重点项目,JCKY2017110B001,XX水下激光增材再制造工艺技术,2018.01-2020.12。
12. JKW科技创新特区163计划,1716313ZT01001801,XX水下激光增材再制造装备与工艺, 2017.07-2019.06。
11. 江苏省六大人才高峰高层次人才项目,2016-HKHT-001,激光增材构件组织与性能的激光喷丸调控机理,2016.09-2019.08。
10. 国家博士后特别资助项目,2016T90400,电磁场辅助激光成形构件冶金缺陷及力学行为研究,2016.02-2017.12。
9. ZB预研教育部联合基金青年人才基金,6141A02033103,面向深海的水下激光增材再制造装置与工艺研究,2016.01-2017.12。
8. 江苏省产学研前瞻性联合研究,BY2015070-05,超大型海工装备低应力无余量焊接理论与方法研究,2015.07-2017.06。
7. 江苏省博士后A类资助,1501028A,气孔对激光沉积成型件的力学行为影响机理研究, 2015/07-2017/06。
6. 国家博士后面上一等资助,2015M570395,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,2015/03-2017/02。
5. 国家自然科学基金青年基金项目,51201070,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,2013/01-2015/12。
4. 江苏省自然科学基金面上项目,BK2012713, 高锰钢基复合涂层的激光合金化原位再制造技术研究,2012/07-2014/12。
3. “高等学校博士学科点专项科研基金”新教师类联合资助课题,20113227120006, 激光直接沉积功能梯度强化层的工艺及机理研究, 2012/02-2015/01。
2. 国家自然科学基金面上项目子项目,51074050,热轧辊工作层材料的激光辅助金属沉积成形与组织性能,2011/01-2013/12。
1 江苏省“企业博士集聚计划”企业创新类项目,高性能、节能型塑料加工技术及设备, 2011/01-2012/12。
软件著作权:
1 表面缺陷智能化检测及定位软件V1.0,2023SR0499007。著作权人:东南大学。2022.6.11,原始取得,全部权利。
2 激光熔覆质量监测软件[简称:熔覆监测软件]1.0,2020SR0737037。著作权人:东南大学。2020.5.10,原始取得,全部权利。
专利:
授权发明专利
39 一种环境可调的高性能激光增材系统及制造方法
38 一种环境可调的激光增材制造供液系统及其工艺流程方法
37 一种流体与环境辅助的高精度电弧增材装置及方法
36 一种高压环境激光熔覆增材实验平台装置
35 环境可调的等离子弧-激光复合增材制造系统及工作方法
34 一种环境可调的激光增材制造与原位电化学抛光复合加工装置及方法
33 一种模拟水下环境激光加工的压力舱试验装置. 专利号: ZL202110310794.1
32 带有鳍式散热片的激光熔覆冷却装置. 专利号: ZL202010877698.0
31 一种具有外保护气结构的激光熔覆同轴送粉喷嘴. 专利号: ZL202010869022.7
30 一种用于水下船体表层缺陷修复的激光熔覆装置及方法. 专利号: ZL202010836724.5
29 可预热回火的中心送粉式熔覆头. 专利号: ZL202010878134.9
28 能够进行多路同步送粉增材的激光熔覆头. 专利号: ZL202010879064.9
27 双超声辅助水下激光增材装置和方法. 专利号: ZL202010305092.X
26 水下送粉和送丝结合的激光熔覆头及其加工方法. 专利号: ZL201911392307X
25 一种检验水下运动平台的方法. 专利号: ZL2019113240190
24 基于光纤组件的水下环境激光加工设备及穿舱密封组件、方法. 专利号: ZL2019113232902
23 一种在水下实施热处理的装置及方法. 专利号: ZL2019113237304
22 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. 专利号: ZL201910039760.6
21 一种适用于高压环境激光熔覆头. 申请号: ZL201718002554.X
20 一种用于水下干法修复的排水罩. 申请号: ZL201718002552.0
19 一种局部干法增材温度及高度在线监控的装置. 专利号: ZL2019113246445
18 一种用于水下环境激光熔覆修复的装置. 申请号: ZL201718002553.5
17 用于制造局部干区以进行水下扫描式激光增材制造的方法和装置, 专利号: ZL201711419403
16 一种水下设施激光增材修复的方法与装置. 专利号: ZL201610855857.0
15 一种降低激光增材件气孔率的表面强化方法. 专利号: ZL 201610612166.8
14 一种超大型海工装备低应力无余量焊接方法和装置. 专利号: ZL201610608845.8
13 一种电磁场辅助激光增材制造的装置. 专利号: ZL201610081496.9
12 一种水下激光切割装置与方法. 专利号: ZL201610179839.5
11 一种水下激光切割用排水装置. 专利号: ZL201610183913.0
10 模拟海洋环境下激光切割的试验装置. 专利号: ZL201610179706.8
9 一种金相试样预磨机. 专利号: ZL201310122286.6
8 一种辅助近视、散光人员裸眼使用显微镜的方法和装置. 专利号: ZL201310082593.2
7 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. 专利号: ZL201310072592.3
6 一种模拟深海环境的腐蚀试验装置和试验方法. 专利号: ZL201310023547.9
5 一种冶金热轧辊工作层的激光直接沉积制备方法和装置. 专利号: ZL200910263062.0
4 强化及修复塑料混合机浆叶和筒体的耐磨耐蚀涂层及其配制方法. 专利号: ZL201110053778.5
3 铁路高速重轨激光淬火硬化工艺. 专利号: ZL200710012480.3
2 铁路道岔激光合金化强化工艺. 专利号: ZL200710012488.X
1 一种冶金热轧辊表面激光纳米陶瓷合金化的涂料. 专利号: ZL200610047996.7
实审发明专利
(1) 一种水下固相增材制造装置. 申请号:CN 202310102026.6.
(2) 一种水下激光熔覆制备耐蚀涂层的工艺方法. 申请号:CN 202310075216.3.
(3) 一种油气管道内壁激光沉积维修装置.申请号:CN202310051227.8.
(4) 一种水下激光沉积修复层超疏水表面原位制备装置和方法. 申请号: CN202310051244.1.
(5) 一种电磁辅助水下激光增材装置和方法. 申请号: CN202310051246.0.
(6) 一种水下激光熔覆制备高性能高氮钢的工艺方法. 申请号:CN202310049426.5.
(7) 一种水下激光沉积层表面质量原位检测装置及方法. 申请号: CN202310029033.8.
(8) 一种可实现水下高功率激光沉积连续作业装置与方法. 申请号:CN202310027981.8.
(9) 具有自修复及水下设施修复功能的海洋装备及方法. 申请号: CN202010392191.6.
(10) 轴承钢构件及其表面激光熔凝-离子注入复合强化方法. 申请号: CN202010305094.9.
(11) 水下超声频微锻造原位强化激光改性层装置和方法. 申请号: CN202010305769.X.
(12) 一种激光熔覆质量的实时监测装置. 申请号: CN202010009150.4.
(13) 水下激光-冷喷复合沉积装置. 申请号: CN2019113940268.
(14) 一种能够同时进行预热回火的激光熔覆头及其激光熔覆方法. 申请号: CN2019113240468.
(15) 一种水下脆性不可切断线缆的穿舱连接防水装置. 申请号: CN2019113233106.
(16) 一种含分束镜的可预热回火的激光熔覆头及加工方法. 申请号: CN2019113254070.
(17) 多点激光冲击成形的有限元模拟方法. 申请号: CN201710721496.5.
(18) 一种激光增材薄壁件激光冲喷丸应力调控的方法. 申请号: CN201610599791.3.
