[1]Xiaolin Bi, Ruifeng Li, Bin Liu, Jiangbo Cheng, Dikai Guan. A comparative study on anisotropy of additively manufactured CoCrNi medium-entropy alloys by hot isostatic pressing and ultrasonic impact treatment[J]. Materials & Design, 2024, 204: 112871.
[2]Yuheng Yuan, Ruifeng Li, Xiaolin Bi, Mingjun Yan, Jiangbo Cheng, Jiayang Gu. Review on numerical simulation of ultrasonic impact treatment (UIT): Present situation and prospect[J]. Journal of Materials Research and Technology, 2024, 30: 1319-1340.
[3]Xiaolin Bi, Ruifeng Li, Zijian Yuan, Jiangbo Cheng, Dikai Guan, Peilei Zhang. Laser-directed energy deposition of a high performance additively manufactured (CoCrNi)94(TiAl)6 medium-entropy alloy with a novel core-shell structured strengthening phase[J]. Additive Manufacturing, 2024, 80: 103971.
[4]Yuheng Yuan, Ruifeng Li, Xiaolin Bi, Min Li, Xiaoqiang Zhang, Yue Zhao, Hangyu Yue, Jiayang Gu, Lei Qiao. Numerical simulation of ultrasonic impact treatment (UIT) assisted laser directed energy deposition (DED) CrCoNi medium entropy alloy process[J]. Journal of Materials Research and Technology, 2023, 26:8472-8484.
[5]Xiaolin Bi, Ruifeng Li, Taotao Li, Chengsi Wang, Zijian Yuan, Jiangbo Cheng. Improvement of mechanical properties at cryogenic temperature of CoCrNi medium entropy alloy fabricated by hybrid additive manufacturing technology[J]. Materials Characterization, 2023, 203: 113351.
[6]Ruifeng Li, Taotao Li*, Jingfeng Xu, Hongde Ding. A novel amorphous- nanocrystalline interface layer for bonding immiscible Mg/steel by pinless friction stir spot weld with preset nanoscale Fe2Al5 film[J]. Materials Characterization, 2023, 203: 113092.
[7]Pengcheng Jiang, Ruifeng Li, Yue Zhao, Xiaoqiang Zhang, Peilei Zhang. Effect of rotating magnetic field on microstructure and tribological properties of laser cladded nickel-based coatings[J]. Journal of Materials Research and Technology, 2023, 24: 1335-1343.
[8]Xiaolin Bi, Ruifeng Li*, Taotao Li, Bin Liu, Yuheng Yuan, Peilei Zhang, Kai Feng. Anisotropic microstructure, properties and molecular dynamics simulation of CoCrNi medium entropy alloy fabricated by laser directed energy deposition[J]. Materials Science & Engineering A, 2023, 871: 144834.
[9]Ruifeng Li*, Hangyu Yue, Shixuan Luo, Feng Zhang, Bingbing Sun. Microstructure and mechanical properties of in situ synthesized (TiB+TiC)-reinforced Ti6Al4V composites produced by directed energy deposition of Ti and B4C powders[J]. Materials Science & Engineering A, 2023, 864: 144466.
[10]Xiaolin Bi, Ruifeng Li*, Taotao Li, Xiancheng Zhang, Jiangbo Cheng, Yingtao Tian. Cracks suppression strategies for CoCrNi medium entropy alloy fabricated by laser directed energy deposition[J]. Materials & Design, 2023, 226: 111579.
[11]Chengsi Wang, Ruifeng Li*, Xiaolin Bi, Wuyan Yuan, Jiayang Gu, Jiao Chen, Mingjun Yan, Ziyu Zhang. Microstructure and wear resistance property of laser cladded CrCoNi coatings assisted by ultrasonic impact treatment[J]. Journal of Materials Research and Technology, 2023, 22:853-864.
[12]Mengfei Ren, Ruifeng Li*, Xiaoqiang Zhang, Jiayang Gu, Chen Jiao. Effect of WC particles preparation method on microstructure and properties of laser cladded Ni60-WC coatings[J]. Journal of Materials Research and Technology, 2023, 22:605-616.
[13]Yuheng Yuan, Ruifeng Li*, Xiaolin Bi, Jiayang Gu and Chen Jiao. Experimental and Numerical Investigation of CMT Wire and Arc Additive Manufacturing of 2205 Duplex Stainless Steel[J]. Coatings, 2022, 12, 1971.
[14]Hangyu Yue, Zhenquan Liang, Feng Zhang, Lijia Fang, Pei Chen, Lijuan Xu, Shulong Xiao, Ruifeng Li*. Effect of heat treatment on the microstructure and creep properties of Ti–48Al–2Cr–2Nb alloy produced by selective electron beam melting[J]. Materials Science & Engineering A, 859 (2022) 144224.
[15]Xiaolin Bi, Ruifeng Li*, Zhenxing Hu, Jiayang Gu, Chen Jiao. Microstructure and Texture of 2205 Duplex Stainless Steel Additive Parts Fabricated by the Cold Metal Transfer (CMT) Wire and Arc Additive Manufacturing (WAAM)[J]. Metals, 2022, 12, 1655.
[16]Yue Zhao, Mingfang Wu, Jancheng Hou, Yuan Chen, Chao Zhang, Jiangbo Cheng, Ruifeng Li*. Microstructure and high temperature properties of laser cladded WTaNbMo refractory high entropy alloy coating assisted with ultrasound vibration[J]. Journal of Alloys and Compounds, 2022, 165888.
[17]TaotaoLi, Jingfeng Xu, Xiaolin Bi, Ruifeng Li*. Microstructure evolution and crack propagation mechanism during laser lap welding of Ti6Al4V and DP780 steel with CoCrNi powder[J]. Materials & Design, 2022, 111126.
[18]Yue Zhao, Mingfang Wu, Pengcheng Jiang, Ruifeng Li*, Jiangbo Cheng, Yuan Chen. Microstructure of WTaNbMo refractory high entropy alloy coating fabricated by dynamic magnetic field assisted laser cladding process. Journal of Materials Research and Technology, 2022,1908-1911.
[19]Hangyu Yue, Hui Peng, Ruifeng Li, Kai Qi, Laiqi Zhang, Junpin Lin, Yongjun Su. Effect of heat treatment on the microstructure and anisotropy of tensile properties of TiAl alloy produced via selective electron beam melting[J]. Materials Science & Engineering A, 803 (2021) 140473.
[20]Kai Qi, Tao Chang, Zhongxing Shi, Jiayang Gu, Taotao Li, Ruifeng Li*. Investigation on electron beam welding of dissimilar wrought/selective laser melting AISI 304 stainless steel plates[J]. International Journal of Modern Physics B, 2022, 2240045.
[21]Kai Qi, Ruifeng Li*, Zhenxing Hu, Xiaolin Bi, Taotao Li, Hangyu Yue, Baosen Zhang. Forming Appearance Analysis of 2205 Duplex Stainless Steel Fabricated by Cold Metal Transfer (CMT) Based Wire and Arc Additive Manufacture (WAAM) Process[J]. Journal of Materials Engineering and Performance, 2022, 31: 4631-4641.
[22]Wuyan Yuan, Ruifeng Li*, Yanyan Zhu, Yue Zhao, Xiaoqiang Zhang, Bin Liu, Baosen Zhang. Structure and properties of nickel-plated CNTs/Fe-based amorphous composite coatings fabricated by high-speed laser cladding[J]. Surface & Coatings Technology, 2022, 438: 128363.
[23]Taotao Li, Ruifeng Li*, Tao Chang, Xinning Ye, Fengjiang Wang. Texture evolution and properties analysis of R60702 pure zirconium joint by fiber laser welding[J]. Materials Characterization, 2021, 182: 111581.
[24]Ruifeng Li*, WuyanYuan, Hangyu Yue, Yanyan Zhu. Study on microstructure and properties of Fe-based amorphous composite coating by high-speed laser cladding[J]. Optics & Laser Technology, 2022, 146: 107574.
[25]HangyuYue, Hui Peng, Ruifeng Li*, Jixin Yang, Runqi Gao, Shuzhi Zhang, Xiaopeng Wang, Yuyong Chen Metastable phase and microstructural degradation of a TiAl alloy produced via selective electron beam melting[J]. Vacuum, 2021, 192: 110491.
[26]Yue Zhao, Ruifeng Li*, Mingfang Wu, Hangyu Yue, Taotao Li, Yuan Chen. Effect of c-BN on the microstructure and high temperature wear resistance of laser cladded Ni-based composite coating[J]. Surface & Coatings Technology, 2021, 421: 127466.
[27]Hangyu Yue, Hui Peng, Ruifeng Li*, Runqi Gao, Xiaopeng Wang, Yuyong Chen. High-temperature microstructure stability and fracture toughness of TiAl alloy prepared via electron beam smelting and selective electron beam melting[J]. Intermetallics, 136 (2021) 107259.
[28]Jiancheng Hou, Ruifeng Li*, Cheng Xu, Taotao Li, Zhongxing Shi. A comparative study on microstructure and properties of pulsed laser welding and continuous laser welding of Al-25Si-4Cu-Mg high silicon aluminum alloy[J]. Journal of Manufacturing Processes, 68 (2021) 657–667.
[29]Shixuan Luo, Ruifeng Li*, Peiyuan He, Hangyu Yue, Jiayang Gu. Investigation on the microstructure and mechanical properties of CNTs-AlSi10Mg composites fabricated by selective laser melting[J]. Materials, 2021, 14, 838.
[30]Wuyan Yuan, Ruifeng Li*, Zhaohui Chen, Jiayang Gu, YingtaoTian. A comparative study on microstructure and properties of traditional laser cladding and high-speed laser cladding of Ni45 alloy coatings[J]. Surface & Coatings Technology, 2021, 405: 126582.
[31]Hangyu Yue, Hui Peng, Ruifeng Li*, Yongjun Su, Yong Zhao, Kai Qi, Yuyong Chen. Selective Electron Beam Melting of TiAl Alloy: Metallurgical Defects, Tensile Property, and Determination of Process Window[J]. Advanced Engineering Materials, 2020: 2000194.
[32]Jiayang Gu, Ruifeng Li, Yi Qiu, Hangyu Yue, Bin Liu, Heng Gu. Microstructure, mechanical properties, and residual Stress distribution of AISI 316L stainless steel part fabricated by laser metal deposition[J]. Scanning, 2020: 4831798.
[33]Jiayang Gu, Ruifeng Li, Shungao Chen, Yuhao Zhang, Shujin .Chen, Heng Gu. Microstructure and wear behavior of laser cladded Ni45 + high-carbon ferrochrome composite coatings[J]. Materials, 2020, 13, 1611.
[34]Zhaohui Chen, Ruifeng Li, Jiayang Gu, Zhongyu Zhang, Yanwu Tao, Yingtao Tian. Laser cladding of Ni60 + 17-4PH composite for a cracking-free and corrosion resistive coating[J]. International Journal of Modern Physics B, Vol. 33, (2020) 2040042.
[35]Jiangbo Cheng, Yuan Feng, Chen Yan, Xianlong Hu, Ruifeng Li, Xiubing Liang. Development and characterization of Al-based amorphous coating[J]. JOM, 2020, 72: 745-753.
[36]Kai Qi, Ruifeng Li, Guangjin Wang, Zhe Sun. Structure and mechanical properties of laser-MIG hybrid welded SAF 2507 super duplex stainless steel joints[J]. International. Journal of Modern Physics B, Vol. 33, Nos. 1-3 (2019) 1940037.
[37]Kai Qi, Ruifeng Li, Guangjin Wang, Gangzhi Li, Bin Liu, and Mingfang Wu. Microstructure and corrosion properties of laser-welded SAF 2507 super duplex stainless steel Joints[J]. Journal of Materials Engineering and Performance, 2019, 28: 287-295.
[38]Ruifeng Li, Zhaohui Chen, Jiayang Gu, Yuxin Wang, Mingfang Wu, Yingtao Tian. Effects of heat inputs on the structure of Ni-based amorphous composite coatings applied with laser cladding[J]. Materials and technology, 53 (2019) 4, 521–526.
[39]Ruifeng LI, Yi Qiu, Yanyan Zhu. Friction wear property of laser surface processed Ni-based amorphous alloy coatings[J]. International Journal of Modern Physics B, 2019, 33,1940014.
[40]Ruifeng Li, Feng Zhang, Tianzhu Sun, Bin Liu, Shujin Chen, Yingtao Tian. Investigation of strengthening mechanism of commercially pure titanium joints fabricated by autogenously laser beam welding and laser-MIG hybrid welding processes[J]. The International Journal of Advanced Manufacturing Technology, 2019, 101: 377–389.
[41]张峰,杜永勤,祝晓辉,李瑞峰,叶昕宁,祁凯. 工业纯钛激光自熔焊接工艺及气孔形成机理研究[J]. 江苏科技大学学报( 自然科学版),2018,32(1):40-45.
[42]Ruifeng Li, Yi Qiu , Qichi Zheng, Bin Liu, Shujin Chen, Yingtao Tian. Finite element simulation of temperature and stress field for laser cladded nickel-based amorphous composite coatings[J]. Coatings, 2018, 8, 336.
[43]Ruifeng Li, Qichi Zheng, Yanyan Zhu, Zhuguo Li, Kai Feng & Chuan Liu, Experimental study of the microstructure and micromechanical properties of laser cladded Ni-based amorphous composite coatings[J]. Journal of Materials Engineering and Performance, 2018, 27: 80-88.
[44]李港志,祁凯,朱永飞,吴铭方,李瑞峰. 2507超级双相不锈钢激光焊接接头组织和力学性能研究[J]. 江苏科技大学学报(自然科学版),2017,31(2):148-152.
[45]Yajuan Jin, Ruifeng Li*, Zhishui Yu, Yu Wang. Microstructure and mechanical properties of plasma arc brazed aisi 304l stainless steel and galvanized steel plates[J]. Journal of Materials Engineering and Performance, 2016, 25(4): 1327 – 1335.
[46]Y. J. Jin, R. F. Li*, Q. C. Zheng, H. Li and M. F. Wu. Structure and properties of laser-cladded Ni-based amorphous composite coatings[J]. Materials Science and Technology, 2016, 32(12): 1206 – 1211.
[47]Shujin Chen, Ruifeng Li, Qichi Zheng, Zhuguo Li. Layered microstructure distribution and forming mechanism of laser-processed Ni-Fe-B-Si-Nb-C amorphous composite coatings[J]. Materials Transactions, 2016, 57(10): 1807 – 1810.
[48]Ruifeng Li, Yajuan Jin, Zhuguo Li, Yanyan Zhu, Mingfang Wu. Effect of the remelting scanning speed on the amorphous forming ability of Ni-based alloy using laser cladding plus a laser remelting process[J]. Surface & Coatings Technology, 2014,259: 725-731.
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[50]时中星,聂树文,倪真,李瑞峰. 镀锌钢CMT钎焊微观组织和力学性能研究[M]. 热加工工艺,2014,43(13):198-200.
[51]Ruifeng Li, Yajuan Jin, Zhuguo Li, and Kai Qi. A comparative study of high-power diode laser and CO2 laser surface hardening of aisi 1045 steel[J]. Journal of Materials Engineering and Performance, 2014,23(9): 3085-3091.
[52]Ruifeng Li, Zhuguo Li, and Kai Qi. A Comparative Study of High-Power Diode Laser and CO2 Laser Surface Hardening of AISI 1045 Steel[J]. Journal of Materials Engineering and Performance, 2014, 23(9): 3085-3091.
[53]Ruifeng Li, Zhuguo Li, Yanyan Zhu, Mingfang Wu. Effect of the remelting scanning speed on the amorphous forming ability of Ni-based alloy using laser cladding plus a laser remelting process[J]. Surface and Coatings Technology, 2014, 259: 725-731.
[54]Y.Y. Zhu, Z.G. Li*, R.F. Li, M. Li, X.L. Daze, K. Feng, Y.X. Wu. Microstructure and property of Fe-Co-B-Si-C-Nb amorphous composite coating fabricated by laser cladding process[J]. Applied Surface Science, 2013, 280, 50-54.
[55]Yanyan Zhu, Zhuguo Li, Ruifeng Li, Min Li, Kai Feng, Yixiong Wu. High power diode laser cladding of Fe–Co–B–Si–C–Nb amorphous coating: Layered microstructure and properties[J]. Surface and Coatings Technology, 2013, 235, 699-705.
[56]Ruifeng Li, Zhuguo Li, Yanyan Zhu, Kai Qi. Structure and corrosion resistance properties of Ni-Fe-B-Si-Nb amorphous composite coatings fabricated by laser processing[J]. Journal of Alloys and Compounds, 2013, 580:327-331.
[57]Li R F, Li Z G*, Huang J, Zhu Y Y. Microstructure and wear properties of laser processed Ni based amorphous matrix coatings[J]. Surface Engineering, 2012, 28(7), 513-516.
[58]Ruifeng Li, Zhuguo Li*, Jian Huang, Yanyan Zhu. Dilution effect on the formation of amorphous phase in the laser cladded Ni-Fe-B-Si-Nb coatings after laser remelting process[J]. Applied Surface Science, 2012, 258: 7956-7961.
[59]Ruifeng Li, Zhuguo Li, Yanyan Zhu, Lei Rong. A comparative study of laser beam welding and laser-MIG hybrid welding of Ti-Al-Zr-Fe titanium alloy[J]. Materials Science and Engineering A, 2011, 528 (3): 1138-1142.
[60]Ruifeng Li, Zhuguo Li, Jian Huang, Peilei Zhang, Yanyan Zhu. Effect of Ni-to-Fe ratio on structure and properties of Ni-Fe-B-Si-Nb coatings fabricated by laser processing[J]. Applied Surface Science, 2011, 257(8): 3554-3557.
[61]Ruifeng Li, Jian Huang, Zhuguo Li, Peilei Zhang, Yanyan Zhu. Fabrication of Ni34.1Ni27.9B18Si18Nb2 amorphous matrix coating on mild steel by laser processing[J]. China Welding, 2011,20(1): 1-6.