张宏刚

职称职务:北京市特聘专家,校聘教授,博士生导师

E-mail:zhanghonggang0301@bjut.edu.cn

教育背景

2017.09-2021.11 博士 都柏林大学 机械与材料工程

2013.09-2017.07 学士 中北大学 机械设计制造及其自动化

工作经历

2022.03至今 校聘教授北京工业大学机械与能源工程学院

研究方向

基础研究:LIGA、纳米压印光刻NIL、原子及近原子尺度制造ACSM、半导体MEMS、微细电铸、微纳模具制造

应用研究:微流控芯片、高端微纳光学元件、功能性微纳结构表面

科研项目

1.省部级重点研发计划项目,科研项目,20232BBE50011,第三代半导体SiC晶圆高性能匀胶显影设备研发及关键技术,2023.07-2026.06,800万元(含企业自筹),在研,主持

2.北京工业大学优秀人才计划项目,科研项目,052000514124520,微纳原子极端制造关键技术研究,2022.03-2027.03,100万元,在研,主持

3.企事业技术开发项目,40001A03202303,高性能超精密电铸零件工艺技术研究,2023.08-2024.08,100万元,在研,主持

4.爱尔兰科学基金会,科研项目,R15998,Ultra-precision Machining in Medical Device Manufacturing,2017.01-2021.09,600万欧元(4700万元),结题,骨干

5.爱尔兰科学基金会,科研项目,R15998,Ultra-precision Machining in Medical Device Manufacturing,2017.01-2021.09,600万欧元(4700万元),结题,骨干

6.欧盟“地平线2020 ITN”玛丽居里创新训练项目,科研项目,956097,Design and development of microstructures for low friction polymer surfaces in medical device applications,2020.09-2023.09,320万欧元(2500万元),结题,骨干

7.爱尔兰科学基金会,科研设施项目,R20467,Ultra-precision Multi-functional Freeform Manufacturing Infrastructure for Innovative Medical Devices and Implants,2020-01至2021-08,194万欧元(1500万元),结题,骨干

8.爱尔兰都柏林大学,科研设施项目,R21894,Ultra-precision Multi-functional Freeform Manufacturing Infrastructure for Innovative Medical Devices,2021-01至2022-01,25万欧元(195万元),结题,骨干

9.爱尔兰都柏林大学,科研设施项目,R17927,MNMT-Dublin Research Centre Setting-up Project,2017-01至2019-11,结题,4万欧元(30万元),结题,骨干

学术兼职

纳米制造与计量(NMME)国际期刊青年编委,纳米技术与精密工程(NPE)国际期刊青年编委,电镀与涂饰中文核心期刊编委,Micromachines国际期刊顾问专家及客座编辑,机械科学与技术期刊青年编委,金属冷加工期刊青年编委,国际工程技术促进会会员(AET)、国际纳米制造学会会员(ISNM);Small, International Journal of Machine Tools and Manufacture, Journal of Materials Processing Technology等国际Top期刊审稿人。

获奖情况

1.爱尔兰国家基金委全额博士奖学金

2.世界微纳制造国际大会2021WCMNM最佳论文奖

3.国际纳米制造与计量期刊NMME2023青年编委杰出贡献奖

代表性研究成果

【论文】

1.Honggang Zhang, Nan Zhang**, and Fengzhou Fang*. "Investigation of mass transfer inside micro structures and its effect on replication accuracy in precision micro electroforming."International Journal of Machine Tools and Manufacture165 (2021): 103717.

2.Honggang Zhang, Tianyu Guan, Nan Zhang**, and Fengzhou Fang*. "Fabrication of permanent self-lubricating 2D material-reinforced nickel mould tools using electroforming."International Journal of Machine Tools and Manufacture170 (2021): 103802.

3.Haibin Liu; Mingyuan He; Jingyi Li; Kai Chen;Honggang Zhang*."Additive manufacturing of high-performance Ni-Co coatings for micro/nanomold applications using an advanced gradient ultrasonic electrochemical deposition process."Additive Manufacturing,79(2024): 103949.

4.Honggang Zhang, Nan Zhang**, and Fengzhou Fang*. "Fabrication of high-performance nickel/graphene oxide composite coatings using ultrasonic-assisted electrodeposition."Ultrasonics sonochemistry62 (2020): 104858.

5.Honggang Zhang, Nan Zhang**, and Fengzhou Fang*. "Study of ion transportation and electrodeposition under hybrid agitation for electroforming of variable aspect ratios micro structures."Precision Engineering72 (2021): 122-143.

6.Honggang Zhang, Nan Zhang**, and Fengzhou Fang*. "Study on controllable thickness and flatness of wafer-scale nickel shim in precision electroforming process: Simulation and validation."Journal of Manufacturing Science and Engineering (ASME)143, no. 11 (2021).

7.Honggang Zhang, Nan Zhang**, and Fengzhou Fang*. "Synergistic effect of surfactant and saccharin on dispersion and crystal refinement for electrodeposition of nanocrystalline nickel/graphene oxide composite."Surface and Coatings Technology402 (2020): 126292.

8.Honggang Zhang, Nan Zhang**, and Fengzhou Fang*. "Electrodeposition of nickel/graphene oxide particle composite coatings: effect of surfactants on graphene oxide dispersion and coating performance."Journal of the Electrochemical Society167, no. 16 (2020): 162501.

9.Honggang Zhang, Nan Zhang**, Michael Gilchrist, and Fengzhou Fang*. "Advances in precision micro/nano-electroforming: A state-of-the-art review."Journal of Micromechanics and Microengineering30, no. 10 (2020): 103002.

10.Honggang Zhang, Haibin Liu**, and Nan Zhang*. "A Review of Microinjection Moulding of Polymeric Micro Devices."Micromachines13, no. 9 (2022): 1530.

11. Jian Hou,Honggang Zhang共同, Nan Zhang**, and Fengzhou Fang*. "Characterization of manufacturability of microstructures for micro-injection moulding of micro devices using star patterns."Journal of Micromechanics and Microengineering30, no. 2 (2019): 025001.

12. Tianyu Guan,Honggang Zhang, Fengzhou Fang, and Nan Zhang*. "Synthesis of two-dimensional WS2/nickel nanocomposites via electroforming for high-performance micro/nano mould tools."Surface and Coatings Technology437 (2022): 128351.

13. HaoyangZhang, Nan Zhang**, Wei Han,Honggang Zhang, Michael D. Gilchrist, and Fengzhou Fang*. "Characterization of process and machine dynamics on the precision replication of microlens arrays using microinjection moulding."Advances in Manufacturing9 (2021): 319-341.

14. Nan Zhang*, Jinghang Liu,Honggang Zhang, Nigel J. Kent, Dermot Diamond, and Michael D. Gilchrist. "3D printing of metallic microstructured mould using selective laser melting for injection moulding of plastic microfluidic devices."Micromachines10, no. 9 (2019): 595.

15. Nan Zhang*, Haoyang Zhang,Honggang Zhang, Fengzhou Fang, and Michael Gilchrist. "Geometric replication integrity of micro features fabricated using variotherm assisted micro injection moulding."Procedia CIRP71 (2018): 390-395.

【论著】

1.Honggang Zhang, Haoyang Zhang, Tianyu Guan, Xiangyu Wang, and Nan Zhang*. "Prototyping and Production of Polymeric Microfluidic Chip." Advances in Microfluidics and Nanofluids (2021).

2.Honggang Zhang, Nan Zhang*."Micro Moulding for Polymeric Miniatured Medical Devices." Encyclopedia of Polymers: Polymeric Materials and Polymer Technology (EPPMPT) (2021).

3.Nan Zhang*, Tianyu Guan,Honggang Zhang. "Polymer microfabrication."Encyclopedia of Materials: Plastics and Polymers(2021).

【专利】

欧洲专利

Nan Zhang, Fengzhou Fang,andHonggang Zhang,Improved electrodeposition,PCT/EP 2021/0638812021.05.25.

中国发明专利

1.张宏刚,刘海滨,赵永娟.一种二维材料增强的自润滑镍模仁的超声电铸加工方法,CN202210869394.9.

2.张宏刚,房丰洲,刘海滨,赵永娟.一种面向原子及近原子尺度功能结构器件的制造方法,CN202210864922.1.

3.张宏刚,刘海滨,吴东旭,赵永娟.一种大面积纳米结构滚筒模具的低成本制造方法,CN202210869378.X.(授权)

4.张宏刚,凌家恒,李德胜,刘海滨.一种基于多探针五轴式电化学纳米3D打印机,CN2024100036986.

5.张宏刚,马博钊,詹天宇,何明远.一种基于行星轮系自转与公转相耦合的旋转阴极超精密晶圆级电铸机,CN202311529532X.

6.张宏刚,张明振,刘海滨.一种基于多层对准技术的多功能纳米压印光刻设备,CN2024101944432.

7.张宏刚,李婧怡,刘海滨.一种自由曲面上大面积原子级层级结构模具及器件的制造方法,CN2024101944447.

8.张楠,房丰洲,张宏刚.一种改进的电沉积方法,CN202180036826.1.

招生信息

不息为体,日新为道!欢迎有志于从事微纳原子极端制造科学研究,具有机械、材料、仪器、自动化、生物学等专业背景的优秀学子报考北京工业大学机械与能源工程学院机械工程学科,研究成果突出的学生有机会获得海外高校交流的机会。

联系方式

邮箱:zhanghonggang0301@bjut.edu.cn

电话:13552565477(同微信号)

公众号关注:Atoman for Science

聚焦前沿交叉学科领域内原子尺度/精度研究的基础科学知识创新,推动未来原子制造技术发展。

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