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机械工程与力学学院

李凯

作者:   已浏览:次  更新日期:2020-06-17

 

 

 

 

 

  


个人信息 

姓名:李凯

职称:讲师

学历:工学博士

电子邮箱:likai@nbu.edu.cn

教育背景

2016.09-2020.05,大连理工大学,机械电子工程,工学博士;

2013.09-2016.06,山东理工大学,机械电子工程,工学硕士;

2009.09-2013.06,山东理工大学,机械设计制造及其自动化,工学学士。

工作经历

2020.06-至今,宁波大学,机械工程与力学学院,讲师。

研究方向

三维纳米打印理论与技术、高性能压电传感器与执行器

社会服务

[1]国家重点研发计划-变革性技术关键科学问题“高性能印刷电子器件的高精度跨尺度喷印制造基础研究”(2018YFA0703100),2020/01-2024/12,参加;

[2]国家自然科学基金面上项目“基于电场-流体复合约束的同轴聚焦电射流纳米打印研究”(51475081),2015/01-2018/12,参加。

发表论文

[1]Li Kai,Wang Dazhi, Zhao Kuipeng, Song Kedong, Liang Junsheng. Electrohydrodynamic jet 3D printing of PCL/PVP composite scaffold for cell culture[J].Talanta, 2020, 211, 120750. (SCI, IF=4.916)

[2]Li Kai,Wang Dazhi, Wang Qiang, Song Kedong, Liang Junsheng, Sun Yulin, Madou Marc. Thermally assisted electrohydrodynamic jet high-resolution printing of high-molecular weight biopolymer 3D structures[J].Macromolecular Materials and Engineering, 2018, 303(11), 1800345. (SCI, IF=3.148,封面文章)

[3]Li Kai,Wang Dazhi, Yi Shanshan, Jia Haoran, Qian Jianghong, Du Zhiyuan, Ren Tongqun, Liang Junsheng, Martinez-Chapa Sergio O., Madou Marc. Instrument for fine control of drop-on-demand electrohydrodynamic jet printing by current measurement[J].Review of Scientific Instruments, 2019, 90(11): 115001, (SCI, IF= 1.587)

[4]Li Kai,Wang Dazhi. Resultant of thermal and electrohydrodynamic 3D printing high molecular weight biopolymer[C]. The 9th Japan-China-Korea Joint Conference on MEMS/NEMS (JCK) 2018: 53-54.

[5]Li Kai,Wang Dazhi. Electrohydrodynamic jet high-resolution 3D printing high molecular weight biopolymer[C]. CSMNT 2018 2018: 1176520.

[6]Wang Xiaoying,Li Kai, Zhong Yang, et al. XFEM simulation of reflective crack in asphalt pavement structure under cyclic temperature[J].Construction and Building Materials, 2018, 189: 1035-1044. (SCI, IF=4.685)

[7]Wang Xiaoying,Li Kai, Zhong Yang, et al. Investigation of Thermal Reflective Cracking in Asphalt Pavement Using XFEM Coupled with DFLUX Subroutine and FILM Subroutine[J].Arabian Journal for Science and Engineering, 2019, 44(5): 4795-4805. (SCI, IF=1.518)

[8]Wang Dazhi, Wang Qiang, Meng Qingbo,Li Kai,Li Jingguo, Xiong Shenghu, Liu Cui, Yuan Xiao, Ren Tongqun,Liang Junsheng. High temperature-assisted electrohydrodynamic jet printing of sintered type nano silver ink on heated substrate,Journal of Micromechanics and Microengineering, 2019, 29(4): 045012. (SCI, IF=1.888)

[9]Zhao Kuipeng, Wang Dazhi,Li Kai, Jiang Chongyang, Wei Yunlong, Qiang Jianghong, Feng Li, Du Zhiyuan, Xu Zheng, Liang Junsheng. Drop-on-Demand Electrohydrodynamic Jet Printing of Graphene and Its Composite Microelectrode for High Performance Electrochemical Sensing,The Electrochemical Society Journals(SCI, IF=3.12, online)

申请专利

[1]王大志,李凯,孟庆博,王强,任同群,梁军生,韦运龙.基于电场-热场复合的电喷射3D打印方法:中国,ZL201710198238.3[P].发明类别:发明专利,授权日期:2019.04.09

[2]Wang Dazhi,Li Kai,Ren Tongqun, Liang Junsheng.Equipment and method of electric-field and thermal-field resultant electrohydrodynamic jet 3D printing:国际专利, U.S. Application NO. 16/303,556[P].发明类别:发明专利,公开日期: 2018.11.20

[3]王大志,李凯,贾皓然,任同群,梁军生.一种电场诱导辅助电喷射的三维打印方法:中国,ZL201811135321.7 [P].发明类别:发明专利,授权日期: 2018.9.28

[4]王大志,李凯,贾皓然,任同群,梁军生.一种电场诱导辅助电喷射的三维打印装置:中国, CN109228305A[P].发明类别:发明专利,公开日期: 2018.9.28

[5]王大志,周鹏,李凯,石鹏,凌四营,任同群,梁军生.一种压电复合元件电极制备方法:中国,ZL201711200925.0[P].发明类别:发明专利,授权日期:2019.08.09

[6]王大志,孟庆博,王强,李凯,梁军生,任同群,冯立,韦运龙.一种电喷印太阳能光伏电池电极的方法:中国,ZL201611151429.6[P].发明类别:发明专利,授权日期:2017.12.01

[7]王大志,孟庆博,王强,李凯,梁军生,任同群,冯立,韦运龙,衣珊珊.一种电喷印太阳能光伏电池电极的装置:中国, ZL201611151576.3[P].发明类别:发明专利,授权日期: 2017.12.05

[8]王大志;王强;孟庆博;任同群;梁军生;李凯.一种用于高温电喷射打印的喷头:中国, ZL201710989699.2[P].发明类别:发明专利,授权日期:2019.04.23

 
 
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