郭鹏飞-青岛理工大学机械与汽车工程学院

郭鹏飞副教授硕士生导师

最高学历：博士研究生
从事专业：机械制造及其自动化，材料加工工程（激光增材制造，增/减复合制造）
联系电话：
电子信箱： dr2019guopf@163.com
工作单位：青岛理工大学机械与汽车工程学院
通信地址：青岛经济技术开发区嘉陵江东路777号

个人简介

郭鹏飞，男，副教授，工学博士，美国电化学协会（ECS）会员，2019年3月毕业于西北工业大学，同年8月以青岛理工大学第五层次A类人才加入青岛理工大学机械与汽车工程学院，从事教学与科研工作。目前主要从事航空用金属材料（高温合金、钛合金等）的激光增材制造以及后续表面处理方面的研究。主持、参与科技部国家重点研发计划项目、国家自然科学基金青年基金项目、山东省自然科学基金重大基础研究项目等多项。已在Corrosion Science、Electrochimica Acta等国际权威期刊发表学术论文20余篇（其中第一作者论文7篇），申请国家发明专利6项。与美国加州大学伯克利分校（University of California, Berkeley）以及法国里昂国立应用科学学院（INSA-Lyon）等高校的相关团队建立了长期合作关系。担任国家自然科学基金评议专家，Journal of Materials Processing Technology、Materials & Design等多个国际期刊的审稿专家。

教育经历

工作履历

学术兼职

“*****服务与维护系统”ZD项目—*****制造与维护技术专家组成员，2017.5

教学情况

主授课程

机械制造及其自动化专业本科生：《先进制造技术》、《互换性原理及测量》等课程；本科生金工实习、认识实习等。

科研情况

研究领域

镍基高温合金、钛合金的激光增材制造工艺与组织演化规律；
激光增材制造功能梯度材料制备技术；
增/减材组合精确成形工艺（减材涉及电化学加工和传统切削加工）；
电化学沉积增材制造工艺（镍、铜及其合金的制备）；
超声振动辅助激光增材制造；
超声振动辅助机械加工。

科研著作

参与《3D打印骨科治疗学》一书的撰写。

科研项目

[1] 国家自然科学基金青年基金项目：脉冲电流对激光立体成形Inconel718合金微区阳极溶解行为的作用机理（No.52005280）, 2021/01-2023/12，主持，24万；
[2] 山东省自然科学基金重大基础研究项目：面向增材制造的高性能功能梯度材料设计与控形控性研究（No.ZR2020ZD04），2021/01-2023/12，主持（子课题），60万；
[3] 教育部重点实验室开放课题：纳秒脉冲对微细电铸沉积层结合强度的作用机理，2020/09-2022/09，主持，2万；
[4] 科技部国家重点研发计划：高效精密激光增材制造-电解加工整体制造技术（No.2018YFB1105900）,2018/06-2021/05，项目骨干（子课题），240万；
[5] 国家自然科学基金面上项目：超声辅助钛合金激光沉积修复的复合机理及组织演变研究（No.51375316）,2014/01-2016/12，核心成员，80万；
[6] 国家自然科学基金青年基金项目：非规则共晶小平面相失稳及其层片间距研究（No.51501154）,2016/01-2018/12，核心成员，24万。

科研论文

[1] Pengfei Guo, Xin Lin, et al. Passive behavior of nickel-based superalloys prepared by high-deposition-rate laser solid forming additive manufacturing. Corros. Sci., 177(2020), 109036-1-109036-15.
[2] Pengfei Guo, Xin Lin, et al. Microstructure and electrochemical anodic behavior of Inconel 718 fabricated by high-power laser solid forming. Electrochim. Acta., 276(2018),247-260.
[3] Pengfei Guo, Xin Lin, et al. Electrochemical behavior of Inconel 718 fabricated by laser solid forming on different sections. Corros. Sci., 132(2018), 79-89. 
[4] Pengfei Guo, Xin Lin, et al. Distinction in anodic dissolution behavior of Inconel 718 prepared by different forming technologies. J. Electrochem. Soc., 165(2018), E1-E10.
[5] Pengfei Guo, Xin Lin, et al. Electrochemical removal of different phases from laser solid formed Inconel 718. J. Electrochem. Soc., 167(2017), E151-E157. 
[6] Pengfei Guo, Xin Lin, et al. Columnar structure and electrochemical anisotropy of a nickel-based superalloy fabricated via laser solid forming. J. Appl. Electrochem., 7(2017), 1083-1090.
[7] Pengfei Guo, Xin Lin, et al. Surface improvement of laser solid forming Inconel 718 by electrochemical machining. J. Laser Appl., 31(2019), 022516-1-022516-6
[8] Yongming Ren, Xin Lin, Pengfei Guo, et al. Low cycle fatigue properties of Ti-6Al-4V alloy fabricated by high-power laser directed energy deposition: Experimental and prediction. Int. J. Fatigue, 127(2019), 58-73
[9] Jiaqiang Li, Xin Lin, Pengfei Guo,et al. Electrochemical behaviour of laser solid formed Ti-6Al-4V alloy in highly concentrated NaCl solution. Corros. Sci., 142(2018), 161-174.
[10] Jianjun Xu, Xin Lin, Pengfei Guo, et al. The initiation and propagation mechanism of the overlapping zone cracking during laser solid forming of IN-738LC superalloy. J. Alloy Compd., 749(2018), 859-870. 
[11] Jianjun Xu, Xin Lin, Pengfei Guo, et al. The effect of preheating on microstructure and mechanical properties of laser solid forming IN-738LC alloy. Mat. Sci. Eng. A., 691(2017), 71-80.
[12] Jianjun Xu, Xin Lin, Pengfei Guo, et al. The microstructure evolution and strengthening mechanism of a gamma’-strengthening superalloy prepared by induction-assisted laser solid forming. J. Alloy Compd., 780(2019): 461-475.
[13] Xindi Wang, Ningsong Qu, Pengfei Guo, et al. Electrochemical machining properties of the laser rapid formed Inconel 718 alloy in NaNO3 solution. J. Electrochem. Soc., 164(2017), E548-E559. 
[14] Qiang Zhang, Jing Chen, Pengfei Guo, et al. Texture and microstructure characterization in laser additive manufactured Ti-6Al-2Zr-2Sn-3Mo-1.5Cr-2Nb titanium alloy. Mater. Design., 88 (2015), 550-557. 
[15] Jiaqiang Li, Xin Lin, Jian Wang, Min Zheng, Pengfei Guo, et al. Effect of stress-relief annealing on anodic dissolution behaviour of additive manufactured Ti-6Al-4V via laser solid forming. Corros. Sci., 153(2019), 314-326. 
[16] Jiaqiang Li, Xin Lin, Min Zheng, Jian Wang, Pengfei Guo, et al. Distinction in anodic dissolution behavior on different planes of laser solid formed Ti-6Al-4V alloy. Electrochim. Acta., 283(2018),1482-1489.
[17] Fenggang Liu, Xin Lin, Menghua Song, Haiou Yang, Kan Song, Pengfei Guo, et al. Effect of tempering temperature on microstructure and mechanical properties of laser solid formed 300M steel. J. Alloy Compd., 689(2016), 225-232. 
[18] 王维，郭鹏飞，等. 超声波对BT20钛合金激光沉积修复作用机制探究. 红外与激光工程，43(2014)，2453-2459. (EI)
[19] 王维，郭鹏飞，等. 超声波对BT20钛合金激光熔覆过程的作用. 中国激光，40(2013), 0803004-1-0803004-5. (EI)
[20] 杨光，郭鹏飞，等. 超声波在BT20钛合金中的传播特性及熔池中超声场的分布研究. 中国激光，40(2013), 1203009-1-1203009-7. (EI)

[1] Pengfei Guo, Xin Lin, et al. Passive behavior of nickel-based superalloys prepared by high-deposition-rate laser solid forming additive manufacturing. Corros. Sci., 177(2020), 109036-1-109036-15.
[2] Pengfei Guo, Xin Lin, et al. Microstructure and electrochemical anodic behavior of Inconel 718 fabricated by high-power laser solid forming. Electrochim. Acta., 276(2018),247-260.
[3] Pengfei Guo, Xin Lin, et al. Electrochemical behavior of Inconel 718 fabricated by laser solid forming on different sections. Corros. Sci., 132(2018), 79-89.
[4] Pengfei Guo, Xin Lin, et al. Distinction in anodic dissolution behavior of Inconel 718 prepared by different forming technologies. J. Electrochem. Soc., 165(2018), E1-E10.
[5] Pengfei Guo, Xin Lin, et al. Electrochemical removal of different phases from laser solid formed Inconel 718. J. Electrochem. Soc., 167(2017), E151-E157.
[6] Pengfei Guo, Xin Lin, et al. Columnar structure and electrochemical anisotropy of a nickel-based superalloy fabricated via laser solid forming. J. Appl. Electrochem., 7(2017), 1083-1090.
[7] Pengfei Guo, Xin Lin, et al. Surface improvement of laser solid forming Inconel 718 by electrochemical machining. J. Laser Appl., 31(2019), 022516-1-022516-6
[8] Yongming Ren, Xin Lin, Pengfei Guo, et al. Low cycle fatigue properties of Ti-6Al-4V alloy fabricated by high-power laser directed energy deposition: Experimental and prediction. Int. J. Fatigue, 127(2019), 58-73
[9] Jiaqiang Li, Xin Lin, Pengfei Guo,et al. Electrochemical behaviour of laser solid formed Ti-6Al-4V alloy in highly concentrated NaCl solution. Corros. Sci., 142(2018), 161-174.
[10] Jianjun Xu, Xin Lin, Pengfei Guo, et al. The initiation and propagation mechanism of the overlapping zone cracking during laser solid forming of IN-738LC superalloy. J. Alloy Compd., 749(2018), 859-870.
[11] Jianjun Xu, Xin Lin, Pengfei Guo, et al. The effect of preheating on microstructure and mechanical properties of laser solid forming IN-738LC alloy. Mat. Sci. Eng. A., 691(2017), 71-80.
[12] Jianjun Xu, Xin Lin, Pengfei Guo, et al. The microstructure evolution and strengthening mechanism of a gamma’-strengthening superalloy prepared by induction-assisted laser solid forming. J. Alloy Compd., 780(2019): 461-475.
[13] Xindi Wang, Ningsong Qu, Pengfei Guo, et al. Electrochemical machining properties of the laser rapid formed Inconel 718 alloy in NaNO3 solution. J. Electrochem. Soc., 164(2017), E548-E559.
[14] Qiang Zhang, Jing Chen, Pengfei Guo, et al. Texture and microstructure characterization in laser additive manufactured Ti-6Al-2Zr-2Sn-3Mo-1.5Cr-2Nb titanium alloy. Mater. Design., 88 (2015), 550-557.
[15] Jiaqiang Li, Xin Lin, Jian Wang, Min Zheng, Pengfei Guo, et al. Effect of stress-relief annealing on anodic dissolution behaviour of additive manufactured Ti-6Al-4V via laser solid forming. Corros. Sci., 153(2019), 314-326.
[16] Jiaqiang Li, Xin Lin, Min Zheng, Jian Wang, Pengfei Guo, et al. Distinction in anodic dissolution behavior on different planes of laser solid formed Ti-6Al-4V alloy. Electrochim. Acta., 283(2018),1482-1489.
[17] Fenggang Liu, Xin Lin, Menghua Song, Haiou Yang, Kan Song, Pengfei Guo, et al. Effect of tempering temperature on microstructure and mechanical properties of laser solid formed 300M steel. J. Alloy Compd., 689(2016), 225-232.
[18] 王维，郭鹏飞，等. 超声波对BT20钛合金激光沉积修复作用机制探究. 红外与激光工程，43(2014)，2453-2459. (EI)
[19] 王维，郭鹏飞，等. 超声波对BT20钛合金激光熔覆过程的作用. 中国激光，40(2013), 0803004-1-0803004-5. (EI)
[20] 杨光，郭鹏飞，等. 超声波在BT20钛合金中的传播特性及熔池中超声场的分布研究. 中国激光，40(2013), 1203009-1-1203009-7. (EI)

发明专利

申请国家专利：
[1] 一种AR衍射光波导压印模具的制备方法及软模具和应用，CN202010859275.6；
[2]一种降低激光立体成形高温合金织构强度的方法和应用，CN202010806704.3;

获奖情况

“沈阳市优秀研究生”

招生信息

2021年计划招收1-2名硕士研究生（研究方向为金属材料/电化学加工），欢迎材料专业、机械专业同学报考！

教师队伍

全院教师

郭鹏飞