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周天丰 教授

 

 

简介  

   

  周天丰,男,1981年12月生,湖北黄梅人,汉族,中共党员,工学博士,北京理工大学机械与车辆学院教授,博士生导师,“青年千人”,“青年973首席科学家”,霍英东教育基金获得者。

 

  • 学科:机械工程
  • 方向:机械制造及其自动化
  • 联系电话:010-68912716
  • 电子邮件:zhoutf@bit.cn
  • 办公地址:北京市海淀区中关村大街5号北京理工大学先进加工研究所306

 

 

教育/培训经历:

 

  • 2006/03 - 2009/09,日本东北大学,工学研究科纳米机械学系,博士
  • 2003/09 - 2006/01,清华大学,精密仪器与机械学系,硕士
  • 1999/09 - 2003/07,北京理工大学,机械工程及自动化系,本科

          

          

工作经历:

 

  • 2015/01 - 至今,北京理工大学,制造工程系副主任,青年973首席科学家
  • 2012/09 - 至今,北京理工大学,机械与车辆学院,教授,博导,青年千人
  • 2010/04 - 2012/04,日本东北大学,工学研究科纳米机械学系,助理教授
  • 2009/10 - 2010/03,日本东北大学,工学研究科纳米机械学系,日本学术振兴学会博士后特别研究员(JSPS)

          

          

学术任职: 

 

  • 1.中国机械工程学会高级会员(CMES)
  • 2.中国机械工程学会塑性工程分会微纳米成形技术专业委员会委员
  • 3.日本精密工学会会员(JSPE)
  • 4.《International Journal of Precision Engineering and Manufacturing》编委(SCI)
  • 5.《光学 精密工程》编委(EI)
  • 6.《中国光学》编委(EI)
  • 7.《现代制造工程》编委

          

          

研究领域:

 

   主要从事模具材料制备、模具制造、微纳加工、玻璃模压成形、电火花加工等工艺及其装备研究,应用对象包括微型动力系统、微纳光学成像系统、微纳光学传感与探测系统、微透镜阵列三维成像与投影、微结构阵列光传输、结构色调控、生物检测微流道、人工关节、心脏支架等,涵盖机械、光学、生物、医学等领域。

          

          

所获奖励/荣誉:

 

  • 1.在亚洲精密工程和纳米技术会议(ASPEN2009)上荣获最高学术荣誉“主席奖(President Prize)”,2009年。
  • 2.在国际前沿加工技术会议(LEM21)上荣获“青年学者奖(Young Researcher Award)”,同时荣获日本机械学会“优秀演讲论文表彰”,2009年。
  • 3.2016年12月获批霍英东教育基金会第十五届高等院校青年教师基金。
  • 4.2017年9月在国际会议Ultra Precision Manufacturing of Aspheres and Freeforms - Imaging and Non-Imaging Applications (UPM Workshop 2017)上荣获“优秀海报奖(Outstanding Poster)”。
  • 5.2018年9月在中日超精密加工国际会议(CJUMP2018)上荣获“青年学者奖(Young Researcher Award)”。
  • 6.2017年5月本人指导的本科毕设学生贺裕鹏的毕业设计作品荣获首届中国机械行业卓越工程师教育联盟“恒星杯”毕业设计大赛“优秀奖”。
  • 7.2018年5月本人指导的本科毕设学生王子凡、姜巍的毕业设计作品分别荣获首届中国机械行业卓越工程师教育联盟“恒星杯”毕业设计大赛“铜奖”和“佳作奖”。
  • 8.2018年3月本人指导的硕士研究生吴君杰、周琴分别荣获“北京市优秀毕业生”称号。
  • 9.2018年7月本人指导的硕士研究生周承华、博士研究生解加庆分别获“北京市优秀毕业生”称号。         

    

讲授课程:

 

  • 1 .《机械结构有限元分析》,本科生课程,选修。
  • 2 .《超精密加工技术》,硕士研究生课程,选修。
  • 3 .《智能制造装备与工艺》,硕士研究生课程,选修。
  • 4 .《金属切削理论》,硕士研究生课程,选修。
  • 5 .《(英)切削理论与先进制造基础(Cutting Theory and Advanced Machining Processes)》,博士研究生全英文课程,选修。

          

    

教材及专著:

 

  • 1.《Microfabrication and Precision Engineering》, 1st Edition, J Paulo Davim, ISBN9780857094865, 2016, Woodhead Publishing, Chapter 8, “Glass Molding Process for Microstructures”.     http://dx.doi.org/10.1016/B978-0-85709-485-8.00008-5 
  • 2.《Micro and Nano Fabrication Technology》, Jiwang Yan, ISBN 978-981-13-0099-8, 2018, Springer Nature, Chapter 20, “Precision Molding of Microstructures on Chalcogenide Glass for Infrared Optics”。     https://doi.org/10.1007/978-981-13-0098-1 
  • 3.《精密制造工学基础》, 北京理工大学出版社, 第1版(2018年5月28日),王西彬, 焦黎, 周天丰编著。

    

    

承担项目:

 

  • 1.国家自然科学基金面上项目,51775046,无粘结相硬质合金微透镜阵列模具的铣削-刻蚀复合加工研究,2018/01-2021/12,在研,主持。
  • 2.JW科技委创新特区项目,xxx系统设计与制造技术,2017/01-2017/12,已结题,主持。
  • 3.国防基础科研,XXX成形基础研究,2014602B002,2016/01-2018/12,已结题,主持。
  • 4.霍英东教育基金会高等院校青年教师基金,151052,微透镜阵列精密模压成形基础研究,2016/01-2018/12,已结题,主持。
  • 5.北京理工大学重大项目培育专项计划项目,2016CX01003,非球面红外光学透镜精密模压成形制造,2016/01-2018/12,已结题,主持。
  • 6.国家自然科学国际(地区)合作与交流项目,51611240138,微细/纳米机械加工与制造国际研讨会,2016/01-2016/10,已结题,主持。
  • 7.科技部青年973项目,2015CB059900,玻璃微纳阵列高效超精密模压制造基础研究,2015/01-2019/08,在研,主持。
  • 8.国家自然科学基金面上项目,51375050,光学微结构阵列成形用模具制造方法及其关键技术研究,2014/01-2017/12,已结题,主持。
  • 9.北京市自然科学基金面上项目,3142016,金刚石粉末柔性喷射抛光方法及其机理研究,2014/01-2016/12,已结题,主持。
  • 10.北京理工大学重大项目培育专项计划项目,2014CX01012,玻璃微纳阵列高效精密模压成形研究,2014/01-2014/12,已结题,主持。
  • 11.千人计划(青年),模具制造与模压成形,工程与材料,2012/09-2016/08,已结题,主持。
  • 12.国家自然科学基金综合管理项目,51445006,典型材料切削加工基础数据库的物理基础和发展趋势研究,2014/08-2014/12,已结题,参与。
  • 13.国家自然科学基金青年基金,51505034,切削液对叶片材料精密加工表面微组织演变的作用机理研究,2016/01-2018/12,已结题,参与。

    

    

SCI Journal paper

 

  • 1. Jiwang Yan, Tianfeng Zhou, Jun Masuda, Tsunemoto Kuriyagawa.Modeling high-temperature glass molding process by coupling heat transfer and viscous deformation analysis,Precision Engineering,2009. 33: pp150-159.
  • 2. Tianfeng Zhou, Jiwang Yan, Jun Masuda, Tsunemoto Kuriyagawa.Investigation on the viscoelasticity of optical glass in ultraprecision lens molding process,Journal of Materials Processing Technology, 2009. 209: pp4484-4489.
  • 3. Jiwang Yan, Takashi Oowada, Tianfeng Zhou, Tsunemoto Kuriyagawa.Precision machining of microstructures on electroless-plated NiP surface for molding glass components,Journal of Materials Processing Technology, 2009. 209: pp4802-4808.
  • 4. Jun Masuda, Jiwang Yan, Takaharu Tashiro, Yasushi Fukase, Tianfeng Zhou, Tsunemoto Kuriyagawa. Microstructural and topographical changes of Ni-P plated moulds in glass lens pressing, International Journal of Surface Science and Engineering, 2009. 3: pp86-102.
  • 5. Tianfeng Zhou, Jiwang Yan, Nobuhito Yoshihara,Tsunemoto Kuriyagawa. Study on nonisothermal glass molding press for aspherical lens, Journal of Advanced Mechanical Design, Systems, and Manufacturing,Special Issue on Advanced Manufacturing Technology (LEM21), 2010. 4(5): pp806-815.
  • 6. Tianfeng Zhou, Jiwang Yan, Jun Masuda, Takashi Oowada, Tsunemoto Kuriyagawa.Investigation on shape transferability in ultraprecision glass molding press for microgrooves, Precision Engineering, 2011.35: pp214-220.
  • 7. Jun Masuda, Jiwang Yan, Tianfeng Zhou, Tsunemoto Kuriyagawa,Yasushi Fukase. Thermally induced atomic diffusion at the interface between release agent coating and mould substrate in a glass moulding press, Journal of Physics D: Applied Physics, 2011. 44(21):pp1-12.
  • 8. Keita Shimada,Payjun Liew, Tianfeng Zhou,Jiwang Yan,Tsunemoto Kuriyagawa. Statistical Approach Optimizing Slant Feed Grinding, Journal of Advanced Mechanical Systems and Manufacturing, 2012. 6(6): pp898-907.
  • 9. LipingMa, WenxiangZhao, ZhiqiangLiang, XibinWang, LijingXie, LiJiao, TianfengZhou.An investigation on the mechanical property changing mechanism of high speed steel by pulsed magnetic treatment,Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 2014. 609: pp16-25.
  • 10. Tianfeng Zhou, Jiwang Yan, Zhiqiang Liang, Xibin Wang, Ryuichi Kobayashi, Tsunemoto Kuriyagawa.Development of polycrystalline Ni–P mold by heat treatment for glass microgroove forming, Precision Engineering, 2015. 39: pp25-30.
  • 11. QiuyanWang, ZhiqiangLiang, XibinWang, WenxiangZhao, YongboWu, TianfengZhou.Fractal analysis of surface topography in ground monocrystal sapphire,Applied Surface Science,2015. 327: pp182-189.
  • 12. Jiangtao Che, Tianfeng Zhou, Xijing Zhu, Wenjun Kong, Zhibin Wang, Xiaodong Xie. Experimental study on horizontal ultrasonic electrical discharge machining, Journal of Materials Processing Technology, 2016.231: pp312-318.
  • 13. Jiaqing Xie, Tianfeng Zhou, Yang Liu, Tsunemoto Kuriyagawa, Xibin Wang. Mechanism study on microgroove forming by ultrasonic vibration assisted hot pressing, Precision Engineering, 2016. 46: pp270-277.
  • 14. QiuyanWang, ZhiqiangLiang, XibinWang, TianfengZhou, WenxiangZhao, YongboWu,LiJiao.Investigation on surface formation mechanism in elliptical ultrasonic assisted grinding (EUAG) of monocrystal sapphire based on fractal analysis method,International Journal of Advanced Manufacturing Technology, 2016. 87(9-12): pp2933-2942.
  • 15. SuyanZhang, ZhiqiangLiang, XibinWang, TianfengZhou, LiJiao, PeiYan,HongchaoJian.Grinding process of helical micro-drill using a six-axis CNC grinding machine and its fundamental drilling performance,International Journal of Advanced Manufacturing Technology,2016. 86(9-12): pp2823-2835.
  • 16. Yang Liu, Wenxiang Zhao, Tianfeng Zhou, Xin Liu, Xibin Wang. Microgroove machining on crystalline nickel phosphide plating by single-point diamond cutting,International Journal of Advanced Manufacturing Technology, 2017. 91(1-4): pp477-484.
  • 17. Tianfeng Zhou, Jiaqing Xie, Jiwang Yan, Kuriyagawa Tsunemoto, Xibin Wang. Improvement of glass formability in ultrasonic vibration assisted molding process, International Journal of Precision Engineering and Manufacturing, 2017. 18(1): pp57-62.
  • 18. Tao Wang, Tianfeng Zhou, Jing Chen, Lu Song. Study the Formation Process of Cuboid Microprotrusion by Glass Molding Process, Micromachines,2017.8(3): pp66-77.
  • 19. Tianfeng Zhou, Junjie Wu, Zhiqiang Liang, Jiangtao Che, Yichuan Zhang,Xibin Wang. A novel constitutive model for Ti–6Al–4V alloy based on dislocation pile-up theory, Materials Science and Technology, 2017. 33(11): pp1379-1387.
  • 20. TianfengZhou, JunjieWu, JiangtaoChe, YingWang,XibinWang.Dynamic shear characteristics of titanium alloy Ti-6Al-4V at large strain rates by the split Hopkinson pressure bar test,International Journal of Impact Engineering,2017. 109: pp167-177.
  • 21. TianfengZhou, QinZhou, JiaqingXie, Xiaohua Liu, XibinWang,HaihuiRuan.Surface defect analysis on formed chalcogenide glass Ge22Se58As20 lenses after the molding process,Applied Optics,2017. 56(30): pp8394-8402.
  • 22. PengGao, ZhiqiangLiang, XibinWang, TianfengZhou, ShidiLi, SuyanZhang,ZhibinLiu.Cutting edge damage in grinding of cemented carbides micro end mills,Ceramics International,2017. 43(14): pp11331-11338.
  • 23PengGao, XibinWang, ZhiqiangLiang, SuyanZhang, TianfengZhou, PeiYan,LiJiao.Effects of machining inclination angles on microgroove quality in micro ball end milling of Ti-6Al-4V,International Journal of Advanced Manufacturing Technology,2017. 92(5-8): pp2725-2734.
  • 24. SuyanZhang, XibinWang, ZhiqiangLiang, TianfengZhou, LiJiao,PeiYan.Modeling and optimization of the flute profile of micro-drill,International Journal of Advanced Manufacturing Technology,2017. 92(5-8): pp2939-2952.
  • 25. ZhiqiangLiang, SuyanZhang, XibinWang, HaixinGuo, TianfengZhou, LiJiao,PeiYan.Research on the Drilling Performance of a Helical Point Micro Drill with Different Geometry Parameters,Micromachines,2017. 8(7): pp208-223.
  • 26. Qiuyan Wang, Wenxiang Zhao, Zhiqiang Liang,Xibin Wang, Tianfeng Zhou, Yongbo Wu, Li Jiao. Investigation of diamond wheel topography in Elliptical Ultrasonic Assisted Grinding (EUAG) of monocrystal sapphire using fractal analysis method,Ultrasonics, 2017.84: pp.87-95.
  • 27. JiaqingXie, TianfengZhou, BenshuaiRuan, YifeiDu, XibinWang.Effects of interface thermal resistance on surface morphology evolution in precision glass molding for microlens array,Applied Optics,2017. 56(23): pp 6622-6630.
  • 28. Tianfeng Zhou, Sibo Wang, Xin Liu, Zhiqiang Liang, Xibin Wang. Micro convexity elimination of tungsten carbide in electrical discharge milling for lens moulds,International Journal of Precision Engineering & Manufacturing, 2017.18(12):pp1703-1710.
  • 29. Yang Liu, Wenxiang Zhao, Tianfeng Zhou,Xin Liu, Xibin Wang.Surface defect elimination in microgrooving of electroless nickel phosphide plating layer by brittleness enhancement,International Journal of Advanced Manufacturing Technology, 2017. 94(1-4):pp1327-1333.
  • 30. Tianfeng Zhou, Chenghua Zhou, Zhiqiang Liang, Xibin Wang. Machining mechanism in tilt electrical discharge milling for lens mold,International Journal of Advanced Manufacturing Technology, 2017. (9):pp1-9.
  • 31. Xin Liu, Tianfeng Zhou, Siqin Pang,Jiaqing Xie, Xibin Wang. Burr formation mechanism of ultraprecision cutting for microgrooves on nickel phosphide in consideration of the diamond tool edge radius,International Journal of Advanced Manufacturing Technology, 2017. (12):pp1-7.
  • 32. Xibin Wang, Tianfeng Zhou, Lijing Xie,Li Jiao, Zhibing Liu, Zhiqiang Liang, Pei Yan.Mesoscale fabrication of a complex surface for integral impeller blades, Frontiers of Mechanical Engineering, 2017.12(1):pp1-16.
  • 33. Tianfeng Zhou, Xiaohua Liu, Zhiqiang Liang, Yang Liu, Jiaqing Xie, Xibin Wang. Recent advancements in optical microstructure fabrication through glass molding process, Frontiers of Mechanical Engineering, 2017.12(1):pp46-65.
  • 34. XiaohuaLiu, TianfengZhou, LinZhang, WenchenZhou, Jianfeng Yu, L. JamesLee,AllenY. Yi.Simulation and Measurement of Refractive Index Variation in Localized Rapid Heating Molding for Polymer Optics. Journal of Manufacturing Science and Engineering-Transactions of the ASME, 2018. 140(1).
  • 35. Xiaohua Liu, Tianfeng Zhou, Lin Zhang, Wenchen Zhou, Jianfeng Yu, L. James Lee, Allen Y. Yi. 3D fabrication of spherical microlens arrays on concave and convex silica surfaces. Microsystem Technologies, 2018: pp 361–370.
  • 36. Tianfeng Zhou, Zhanchen Zhu, Xiaohua Liu, Zhiqiang Liang, Xibin Wang. A Review of the Precision Glass Molding of Chalcogenide Glass(CHG) for Infrared Optics. Micromachines, 2018. 9(7).
  • 37. Jiangtao Che, Tianfeng Zhou, Zhiqiang Liang, Junjie Wu, Xibin Wang. An integrated Johnson–Cook and Zerilli–Armstrong model for material flow behavior of Ti–6Al–4V at high strain rate and elevated temperature. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2018, 40(5): pp253.
  • 38. Zhiqiang Liang, Peng Gao, Xibin Wang, Shidi Li, Tianfeng Zhou, Junfeng Xiang. Cutting Performance of Different Coated Micro End Mills in Machining of Ti-6Al-4V. Micromachines, 2018. 9(11).
  • 39. Xiaobin Dong, Tianfeng Zhou, Siqin Pang, Liang Zhiqiang, Yu Qian, Ruan Benshuai, Wang Xibin. Defect Analysis in Microgroove Machining of Nickel-Phosphide Plating by Small Cross-Angle Microgrooving. Journal of Nanomaterials, 2018:1-9.
  • 40. Zhiqiang Liang, Shidi Li, Tianfeng Zhou, Peng Gao, Dongdong Zhang, Xibin Wang. Design and fabrication of a new micro ball-end mill with conical flank face.International Journal of Advanced Manufacturing Technology, 2018. 97(1-4): pp39-50.
  • 41. Haixin Guo, Xibin Wang, Zhiqiang Liang, Tianfeng Zhou, Li Jiao, Zhibing Liu, Longlong Teng, Wenhua Shen. Drilling performance of non-coaxial helical flank micro-drill with cross-shaped chisel edge. International Journal of Advanced Manufacturing Technology, 2018, 99(9–12): pp1-11.
  • 42. Peng Gao, Zhiqiang Liang, Xibin Wang, Shidi Li, Tianfeng Zhou. Effects of different chamfered cutting edges of micro end mill on cutting performance. International Journal of Advanced Manufacturing Technology, 2018, 96(1–4): pp1215–1224.
  • 43. Tianfeng Zhou*, Qin Zhou, Jiaqing Xie, Xiaohua Liu, Xibin Wang, Haihui Ruan. Elastic-viscoplasticity modeling of the thermo-mechanical behavior of chalcogenide glass for aspheric lens molding, International Journal of Applied Glass Science, 2018.9(2): pp252-62.
  • 44. Tao Wang, Jing Chen, Tianfeng Zhou, Lu Song. Fabricating Microstructures on Glass for Microfluidic Chips by Glass Molding Process. Micromachines, 2018. 269(9).
  • 45. Zhiqiang Liang, Shidi Li, Tianfeng Zhou, Xibin Wang, Peng Gao, Dongdong Zhang, Longlong Teng. Fabrication and Milling Performance of Micro Ball-end Mills with Different Relief Angles. International Journal of Advanced Manufacturing Technology, 2018. 98(1-4): pp919-928.
  • 46. Peng Gao, Zhiqiang Liang, Xibin Wang, Tianfeng Zhou, Jiaqing Xie, Shidi Li, Wenhua Shen. Fabrication of a Micro-Lens Array Mold by Micro Ball End-Milling and Its Hot Embossing, Micromachines, 2018. 96(9).
  • 47. Tianfeng Zhou, Ruzhen Xu, Benshuai Ruan, Zhiqiang Liang, Xibin Wang. Fabrication of microlens array on 6H-SiC mold by an integrated microcutting-etching process. Precision Engineering, 2018. 54: pp314-320.
  • 48. Xiaohua Liu, Tianfeng Zhou, Lin Zhang, Wenchen Zhou, Jianfeng Yu, L. James Lee, Allen Y. Yi. Fabrication of spherical microlens array by combining lapping on silicon wafer and rapid surface molding. Journal of Micromechanics and Microengineering, 2018. 28(7).
  • 49. Haixin Guo, Zhiqiang Liang, Xibin Wang, Tianfeng Zhou, Li Jiao, Longlong Teng, Wenhua Shen. Influence of chisel edge thinning on helical point micro-drilling performance. International Journal of Advanced Manufacturing Technology, 2018. 99(9-12): pp2863-2875.
  • 50. Xiaobin Dong, Tianfeng Zhou, Siqin Pang, Liang Zhiqiang, Ruan Benshuai, Zhanchen Zhu, Wang Xibin. Mechanism of burr accumulation and fracture pit formation in ultraprecision microgroove fly cutting of crystalline nickel phosphorus. Journal of Micromechanics and Microengineering, 2018, 28(12).
  • 51. Qian Yu, Tianfeng Zhou, Yonggang Jiang, Xing Yan, Zhonglie An, Xibin Wang, Deyuan Zhang, Takahito Ono. Preparation of graphene-enhanced nickel-phosphorus composite films by ultrasonic-assisted electroless plating. Applied Surface Science, 2018. 435: pp617-625.
  • 52. Jiangtao Che, Tianfeng Zhou, Zhiqiang Liang, Junjie Wu, Xibin Wang. Serrated chip formation mechanism analysis using a modified model based on the material defect theory in machining Ti-6Al-4V alloy. International Journal of Advanced Manufacturing Technology, 2018. 96(9-12): pp3575-3584.
  • 53. Xiaohua Liu, Tianfeng Zhou, Lin Zhang, Wenchen Zhou, Jianfeng Yu, L. James Lee, Allen Y. Yi. 3D fabrication of spherical microlens arrays on concave and convex silica surfaces. Microsystem Technologies, 2019, 25(1): pp361-370.

    

 

 

EI Journal paper

 

  • 1. Tianfeng Zhou, Jiwang Yan, Tsunemoto Kuriyagawa.Evaluating the viscoelastic properties of glass above transition temperature for numerical modeling of lens molding process,Proceedings of SPIE - The International Society for Optical Engineering,2008.6624:pp62403-62403.
  • 2. Jiwang Yan, Tianfeng Zhou, Nobuhito Yoshihara, Tsunemoto Kuriyagawa. Shape transferability and microscopic deformation of mold dies in aspherical glass lens molding press, Journal of Manufacturing Technology Research, 2009. 1: pp85-102.
  • 3. Tianfeng Zhou, Jiwang Yan, Tsunemoto Kuriyagawa. Comparing microgroove array forming with micropyramid array forming in the glass molding press, Key Engineering Materials,2010. 447-448: pp361-365.
  • 4. Tianfeng Zhou, Jiwang Yan, Sergey Bolotov, Tsunemoto Kuriyagawa. Improvement of the Forming Ability in Microgroove Molding by Ultrasonic Vibration, The 6th International Conference on Leading Edge Manufacturing in21stCentury : LEM 2011.
  • 5. Chihiro Nishikawa, Koichi Mizutani, Tianfeng Zhou, Jiwang Yan, Tsunemoto Kuriyagawa. Removal Mechanism of Impacts by Powder Jet Machining, The 6th International Conference on Leading Edge Manufacturing in 21st Century: LEM 2011.
  • 6. Peng Yao, Takuro Abe, Nobuhito Yoshihara, Tianfeng Zhou, Jiwang Yan, Tsunemoto Kuriyagawa. Repairing damage on ground fused silica by CO2 laser irradiation, Advanced Materials Research,2010. 126-128: pp401-406.
  • 7. Peng Yao, Yadong Gong, Suoxian Yuan, Tianfeng Zhou, Jiwang Yan, Tsunemoto Kuriyagawa.Thermal analysis of laser irradiation of fused silica,Advanced Materials Research, 2011. 314-316: pp1960-1964.
  • 8. Peng Yao, Takeshi Matsuda, Tianfeng Zhou, Jiwang Yan, Tsunemoto Kuriyagawa, Yadong Gong.On-machine measurement and statistical analysis of wheel wear aftergrinding optical glass, Advanced Materials Research, 2011. 325: pp653-658.
  • 9. Keita Shimada, Tianfeng Zhou, Jiwang Yan,Tsunemoto Kuriyagawa.Statistical approach calculating ground surface roughness ofultrasonic-assisted micro-grinding, Advanced Materials Research, 2011. 325: pp600-605.
  • 10. Tianfeng Zhou, Jiwang Yan, Jun Masuda, Kuriyagawa Tsunemoto.Ultraprecision mass fabrication of aspherical Fresnel lens byglass molding press,Advanced Materials Research, 2011. 325: pp713-718.
  • 11. Peng Yao,Yadong Gong, Takeshi Matsuda, Tianfeng Zhou, Jiwang Yan, Tsunemoto Kuriyagawa. Investigation of wheel wear mechanisms during grinding optical glasses through statistical analysis of wheel topography, International Journal of Abrasive Technology, 2012. 5(1): pp33-47.
  • 12. Tianfeng Zhou, Jiwang Yan, Kuriyagawa Tsunemoto. Size effects on transferability and mold change of glass molding press for microgrooves,Advanced Materials Research, 2012. 497: pp235-239.
  • 13. Nishikawa Chihiro,Mizutani Koichi, Zhou Tianfeng,Yan Jiwang,Kuriyagawa Tsunemoto. Investigation of particle impact phenomena in powder jet deposition process, Key Engineering Materials, 2012. 523-524: pp184-189.
  • 14. Ryuichi Kobayashi, Tianfeng Zhou, Keita Shimada, Masayoshi Mizutani,Tsunemoto Kuriyagawa.Ultraprecision Glass Molding Press for Microgrooves with Different Pitch Sizes,International Journal of Automation Technology, 2013. 7(6): pp678-685.
  • 15. Tianfeng Zhou, Zhiqiang Liang, Xibin Wang, Tsunemoto Kuriyagawa. Experiment on Glass Microgroove Molding by Using Polycrystalline Nickel Phosphorus Mold, Advanced Materials Research, 2013. 797: pp483-488.
  • 16. Zhiqiang Liang, Tianfeng Zhou, Xibin Wang, Yongbo Wu, Wenxiang Zhao. Experimental investigations of grinding forces in elliptical ultrasonic assisted grinding (EUAG) of monocrystal sapphire, Advanced Materials Research, 2013.797: pp223-228.
  • 17. Liping Ma, Zhiqiang Liang, Xibin Wang, Wenxiang Zhao, Tianfeng Zhou,Hongmin Yao. Effect of Low-frequency Pulsed Magnetic Treatment on Micro-hardness of High Speed Steel, Advanced Materials Research, 2013. 797: pp663-666.
  • 18. TianfengZhou, Lizheng Ma, Zhiqiang Liang, Xibin Wang. Modeling and Simulation of Surface TopographyEvolution in Electrical Discharge Machining (EDM), Advanced Materials Research 2014. 1017: pp764-769.
  • 19. Zhiqiang Liang, Xibin Wang, Yongbo Wu,Li Jiao, Wenxiang Zhao, Tianfeng Zhou.Grinding force characteristics in elliptical ultrasonic assisted grinding (EUAG) of monocrystal sapphire[J]. International Journal of Abrasive Technology, 2014.6(4):286-297.
  • 20. Jinying Meng, Xibin Wang, Zhiqiang Liang,Jiajie Pei, Tianfeng Zhou.Simulation Research on Fuzzy PID Control for Transmission Shaft Rolling Control System,Applied Mechanics & Materials, 2014.543-547:pp1355-1359.
  • 21. Wenxiang Zhao, Hongmin Yao, Zhiqiang Liang,Xibin Wang, Tianfeng Zhou. Effects of Pulsed Magnetic Field on the Micro-Hardness of HSS Cutting Tool Materials,Transactions of Beijing Institute of Technology, 2014.34(7):pp661-665.
  • 22. Zhiqiang Liang, Zhaoyang Mi, Xibin Wang,Tianfeng Zhou, Yongbo Wu, Wenxiang Zhao.Numerical Investigations on the Grinding Forces in Ultrasonic Assisted Grinding of SiC Ceramics by Using SPH Method,Advanced Materials Research, 2014.1017:pp735-740.
  • 23. Ruile Xiang, Tianfeng Zhou, Zhiqiang Liang and Xibin Wang. Experimental Research on Flexible Polishing by Compound Diamond Powder, Applied Mechanics and Materials, 2015. 806: pp484-489.
  • 24. Zhaoyang Mi, Zhiqiang Liang, Xibin Wang, Tianfeng Zhou, Yongbo Wu, Wenxiang Zhao.A simulation investigation on grinding forces in ultrasonic assisted grinding of ceramics with single abrasive grain by using SPH method, Acta Armamentarii, 2015.36(6):pp1067-1073.
  • 25. Qiuyan Wang, Zhiqiang Liang, Xibin Wang, Wenxiang Zhao, Yongbo Wue, Li Jiao, Tianfeng Zhou. Research on surface formation mechanism in elliptical ultrasonic assisted grinding (euag) of monocrystal sapphire using structure function fractal method, The 10th ASME Manufacturing Science and Engineering Conference MSEC, 2015.
  • 26. Tianfeng Zhou, Lizheng Ma, Siqin Pang, Zhiqiang Liang, Xibin Wang. Analysis of Shaped Electrode Based on Size Effects in Electrical Discharge Machining (EDM), The 10th ASME Manufacturing Science and Engineering Conference MSEC, 2015.
  • 27. Qiuyan Wang, Zhiqiang Liang, Xibin Wang,Wenxiang Zhao, Li Jiao, Yongbo Wu, Tianfeng Zhou.Research on Fractal Behavior of Surface Topography in Precision Grinding of Monocrystal Sapphire,Journal of Mechanical Engineering, 2015.51(19): pp174-181.
  • 28. Zhiqiang Liang, Liping Ma, Xibin Wang, Wenxiang Zhao, Tianfeng Zhou, Pei Yan, Li Jiao.Influence of Pulsed Magnetic Treatment on Wear of Carbide Micro-end-Mill,Advanced Materials Research, 2016.1136:pp143-148.
  • 29. Tianfeng Zhou, Jiaqing Xie, Yang Liu, Zhiqiang Liang, Xibin Wang. Simulation and experimental study on the molding process for microgrooves on optical glass,Optics and Precision Engineering,2016. 24: pp446-453.
  • 30. Suyan Zhang, Zhiqiang Liang, Xibin Wang, Tianfeng Zhou, Pei Yan, Siyi Xue.Influence of Drill Geometry Parameters on Helical Point Micro Drilling Performance,Materials Science Forum, 2016.836-837:pp198-204.
  • 31. Jiaqing Xie, Tianfeng Zhou, Yang Liu, Tunemoto Kuriyagawa, Xibin Wang. The Effects of Ultrasonic Vibration in Hot Pressing for Microgrooves,Materials Science Forum, 2016.861:pp121-126.
  • 32. Zhiqiang Liang, Tian Meng, Qiuyan Wang, Xibin Wang, Tianfeng Zhou, Yongbo Wu, Li Jiao.Simulation Investigation on Crack Initiation and Propagation in Ultrasonic Assisted Grinding of Ceramics Material,Acta Armamentarii, 2016.37(5): pp895-902.
  • 33. Tao Wang, Jing Chen, Tianfeng Zhou. Numerical study on fabricating rectangle microchannel in microfluidic chips by glass molding process, IOP Conference Series: Materials Science and Engineering, 2017.242: pp012097.
  • 34. Longlong Tang , Tianfeng Zhou*, Jia Zhou, Zhiqiang Liang, Xibin Wang. Research on single point diamond turning of chalcogenide glass aspheric lens, Procedia CIRP, 2018.71: pp293-8.
  • 35. Yaqun Bai, Xibin Wang, Tianfeng Zhou*, Zhigiang Liang, Guang Li. Compressional Deformation in Indentation Process for Microlens Array Mold, Journal of Beijing Institute of Technology, 2018.27(1): pp15-21.
  • 36. Tianfeng Zhou*, Yifei Du, Jia Zhou, Zihan Chen, Zhiqiang Liang, Xibin Wang. High efficiency fabrication of 3D curved glass by full-motor-driving precision molding, Proceedings of the SPIE, 2018.10847: pp1084712.
  • 37. Zhanchen Zhu, Tianfeng Zhou*, Jiaqing Xie, Qian Yu, Jia Zhou, Xibin Wang. Simulation and experimental study on the precision glass molding for microstructures on optical glass based on relaxation effect, Proceedings of the SPIE, 2019.10840: pp1084014.

    

    

中文论文:

 

  • 1.周天丰,刘成颖,赵彤,孙洁. 三相方波无刷直流电动机PWM的电路设计与实现[J],机械设计与制造, 2005,(11),pp25-27.
  • 2.周天丰,刘成颖,赵彤,孙洁,林家春. 永磁同步直线电机定位力测试实验研究[J],传感器与微系统, 2006,(10),pp34-37.
  • 3.赵彤,王先逵,刘成颖,吴丹,周天丰,林家春. 机床进给用永磁同步直线伺服单元的设计与实验研究[J],中国机械工程, 2006,(12),pp2421-2425.
  • 4.Jiachun Lin, Wei Li, Tong Zhao, Tianfeng Zhou, Xiankui Wang, Chengying Liu, A simple force ripple compensation method for linear motor servo system, Proceedings of the 6th World Congress on Intelligent Control and Automation, June 21-23, 2006, Dalian, China.
  • 5.尹韶辉,霍建杰,周天丰,朱科军,王玉方,靳松,余剑武. 小口径非球面透镜模压成形加热加压参数仿真[J].湖南大学学报(自然科学版),2011,38(1):pp35-39.
  • 6.赵文祥,姚洪民,梁志强,马利平,王西彬,周天丰. 脉冲磁场对高速钢刀具材料微观硬度的影响[J].北京理工大学学报,2014,34(7):pp661-665.
  • 7.米召阳,梁志强,王西彬,周天丰,赵文祥,田梦. 基于光滑粒子流体动力学法单颗磨粒超声辅助磨削陶瓷材料的磨削力仿真研究[J].兵工学报,2015,36(6):pp1067-1073.
  • 8.王秋燕,梁志强,王西彬,赵文祥,焦黎,吴勇波,周天丰. 蓝宝石单晶精密磨削表面形貌的分形行为研究[J].机械9工程学报,2015,51(19):pp174-181.
  • 9.梁志强,田梦,王秋燕,王西彬,周天丰,吴勇波,焦黎. 超声辅助磨削陶瓷材料的裂纹产生与扩展仿真研究[J].兵工学报,2016,37(5):pp895-902.
  • 10.聂倩倩,梁志强,张素燕,周天丰,颜培,王西彬. 超声振动辅助微细钻削钛合金试验研究[A]. 中国机械工程学会特种加工分会超声加工技术委员会.2016年全国超声加工技术研讨会论文集[C]. 中国机械工程学会特种加工分会超声加工技术委员会:2016:6.
  • 11.李广,周天丰,梁志强,白亚群,王西彬. 超声振动辅助微塑性成形系统设计与开发[A]. 中国机械工程学会特种加工分会超声加工技术委员会.2016年全国超声加工技术研讨会论文集[C]. 中国机械工程学会特种加工分会超声加工技术委员会:2016:6.
  • 12.李广,周天丰,梁志强,白亚群,王西彬. 超声振动辅助微塑性成形系统设计与开发[J].电加工与模具,2017(1):pp43-47.
  • 13.王秋燕,梁志强,王西彬,周天丰,赵文祥,吴勇波,焦黎. 超声振动螺线磨削表面微观形貌建模与仿真研究[J].机械工程学报, 2017,53(19):pp83-89.
  • 14.梁志强,吴立飞,周天丰,张素燕,王秋燕,焦黎,王西彬.金刚石砂轮V形尖端切向磨削修整试验研究[J].机械工程学报,2017,49(6):pp1-7.
  • 15.梁志强,方亚楠,周天丰,高鹏,张素燕,刘志兵,王西彬. 微小整体叶轮五轴联动微细铣削加工试验研究[J].航空制造技术,2017(15):pp45-49.
  • 16.周天丰, 解加庆, 梁志强,刘欣,刘晓华,王西彬. 光学微透镜阵列模压成形研究进展与展望[J].中国光学, 2017, 10(5):pp603-618.
  • 17.周天丰,车江涛,鲁陈立,梁志强,王西彬. 耐热不锈钢X8CrNi25-21介观尺度材料本构建模与仿真[J].北京理工大学学报, 2017, 37(9):pp893-898.
  • 18.董晓彬,周天丰,庞思勤,阮本帅,王西彬. 玻璃模压成形用微沟槽磷化镍模具的超精密切削加工[J].光学精密工程,2017,25(12):pp2986-2993.
  • 19.梁志强,黄迪青,周天丰,李宏伟,乔治,王西彬,刘心藜. 齿轮钢18Cr2Ni4WA磨削烧伤实验及仿真预测研究[J].兵工学报,2017,38(10):pp1995-2001.
  • 20.梁志强,黄迪青,周天丰,李宏伟,刘心藜,王西彬.螺旋伞齿轮磨削残余应力分布规律及仿真分析[J].机械工程学报,2018,54(21):pp183-190.
  • 21.张素燕,梁志强,王西彬,周天丰,焦黎,刘志兵,颜培.非共轴螺旋后刀面微钻的五轴联动刃磨方法及其钻削性能研究[J].机械工程学报,2018,54(19):pp204-211.
  • 22.郭海新,王西彬,梁志强,周天丰,刘志兵,张素燕.非共轴螺旋后刀面微钻几何结构优化与刃磨制备研究[J].兵工学报,2018,39(06):pp1195-1204.
  • 23.聂倩倩,王西彬,梁志,周天丰,焦黎,颜培.不锈钢微孔超声辅助钻削仿真与试验研究[J].航空制造技,2018,61(11)pp:94-100.

 

专利:

 

  1. 1.一种变芯厚变槽宽微小深孔钻削刀具及其刃磨方法,ZL201710648316.5,授权公告日2017.11.21.
  2. 2.一种具有微透镜或微透镜阵列结构的表面的压痕制造方法,ZL201610121288.7,授权公告日2016.05.25.
  3. 3.基于切削液超声空化与刀具振动复合的微小孔钻削方法,ZL201510846630.5,授权公告日216.02.10.
  4. 4.一种基于斜角切削的曲线端铣铣削力预测方法,ZL201510627974.7,授权公告日2016.01.27.
  5. 5.超声振动辅助塑性成形装置, ZL201510711776.9,授权公告日2015.12.30.
  6. 6.一种适用于柴油发动机喷油嘴的喷孔钻削加工方法,ZL201510608560.X,授权公告日2015.12.09.
  7. 7.一种无横刃自定心微钻, ZL201510458331.4,授权公告日2015.11.11.
  8. 8.空气喷射柔性抛光装置, ZL201510024873.0,授权公告日2015.05.13..
  9. 9.一种微细刀具变频脉冲磁场刃区定位强化方法,ZL201410522377.3,授权公告日2015.03.04.
  10. 10.复杂型面切削力预测方法、参数调整和刀具路径规划方法,ZL201410478390.3,授权公告日2014.12.24
  11. 11.一种非共轴螺旋后刀面微细钻削刀具及其刃磨方法, CN201810830245.5,公开公告日2018.12.11.
  12. 12.一种精确控制透镜厚度的加工方法, CN201810669655.6,公开公告日2018.12.07.
  13. 13.一种基于CCD相机在位测量的超精密对刀法, CN201810668997.6,公开公告日2018.11.13.
  14. 14.一种精确控制非透明工件厚度的加工方法, CN201810669020.6, 公开公告日2018.11.13.
  15. 15.一种超声波空气净化方法及系统,CN201810349842.6, 公开公告日2018.11.09.
  16. 16.基于铣-铣复合加工原理的高柔性加工系统和加工方法,CN201810685286.X,公开公告日2018.11.06.
  17. 17.一种扭力轴齿根滚压强化机床液压供油系统,CN201810601139.X,公开公告日2018.11.06.
  18. 18.一种扭力轴表面滚压强化机床液压供油系统,CN201810600457.4,公开公告日2018.11.06.
  19. 19.一种用于扭力轴外圆滚压的数控滚压机床,CN201810500504.8,公开公告日2018.10.19.
  20. 20.一种用于扭力轴齿根滚压的数控滚压机床,CN201810500231.7,公开公告日2018.10.12.
  21. 21.一种电火花加工电极在位修整方法, CN201810454442.1,公开公告日2018.09.28.
  22. 22.一种基于CCD相机在位测量的换刀加工方法, CN201810669563.8,公开公告日2018.09.14.
  23. 23.一种多场耦合锥面滚压加工的装置, CN201810493734.6, 公开公告日2018.08.14.
  24. 24.一种基于在位膜厚测量的超精密车削或铣削对刀法, CN201810163879.X,公开公告日2018.08.10.
  25. 25.一种基于在位膜厚测量的大面积微结构切削中途换刀方法, CN201810163877.0,公开公告日2018.08.10.
  26. 26.含磨料镀层的微型刀具及其制备方法和应用, CN201810260480.3,公开公告日2018.07.20.
  27. 27.一种大尺寸蓝宝石光学晶体的热处理工艺, CN201810275048.1,公开公告日2018.07.03.
  28. 28.石墨烯磷化镍复合镀层的制备方法及制备得到的镀层, CN201711167768.8,公开公告日2018.04.17.
  29. 29.一种电气复合驱动精密玻璃模压成形机及操作方法, CN201710833408.0,公开公告日2018.02.23.
  30. 30.一种刀具表面多维梯度涂层的制备方法, CN201710841677.1,公开公告日2018.02.09.
  31. 31.一种全电机驱动精密模压成形机及操作方法, CN201710834230.1,公开公告日2018.01.26.
  32. 32.一种电场增强乳化液润滑的表面织构方法, CN201710724588.9,公开公告日2018.01.19.
  33. 33.一种新型微细球头铣刀及刃磨制备工艺, CN201710960197.7,公开公告日2018.01.09.
  34. 34.一种微深槽超声空化辅助铣削抛光复合加工方法及装置, CN201710388909.2,公开公告日2017.09.19.
  35. 35.NiP镀层化学镀液及可控制备微纳模具的方法,CN201610821908.8,公开公告日2017.02.08.
  36. 36.一种微透镜阵列模具和其制造方法, CN201610916596.9,公开公告日2016.12.21.
  37. 37.一种微透镜阵列和其制造方法, CN201610916584.6,公开公告日2016.12.14.
  38. 38.一种微细铣刀螺旋曲面的无瞬心包络磨削方法,CN201410109878.9,公开公告日2014.06.18.

    

    

Personal Resume

                               Prof. Dr. Tianfeng ZHOU

    

Education Background

  1. 1. Ph.D., Department of Nanomechanics, Tohoku University (Japan), 03/2006-09/2009.
  2. 2. Master of Engineering. Department of Precision Instruments and Mechanology. Tsinghua University. 09/2003-01/2006.
  3. 3. Bachelor of Engineering. Department of Mechanical Engineering & Automation. Beijing Institute of Technology. 09/1999-07/2003.

    

Positions and Employment

  1. 1. 09/2012 - present, Professor, Beijing Institute of Technology, School of Mechanical Engineering.
  2. 2. 04/2010-04/2012, Assistant Professor, Tohoku University, Department of Mechanical Systems and Design.
  3. 3. /2009-03/2010, Post Doctor, Tohoku University, Department of Nanomechanics.

    

Professional Membership/Academic Appointments

  1. 1. Chinese Mechanical Engineering Society (CMES) Member
  2. 2. Professional committee member of Micro/Nano Forming Technology, The China Society for Technology of Plasticity, Chinese Mechanical Engineering Society (CMES)
  3. 3. Japan Society for Precision Engineering (JSPE) member
  4. 4. Editorial Board Members of “International Journal of Precision Engineering and Manufacturing” (SCI)
  5. 5. Editorial Board Members of “Optics and Precision Engineering” (EI)
  6. 6. Editorial Board Members of “Chinese Optics” (EI)
  7. 7. Editorial Board Members of “Modern Manufacturing Engineering”

    

Research and Teaching Interest

  1. 1. Precise/Ultraprecision manufacturing
  2. 2. Mesoscale manufacturing
  3. 3. Mold material developing and mold manufacturing
  4. 4. Glass molding
  5. 5. Aspherical lens manufacturing
  6. 6. Micro lens array manufacturing
  7. 7. Micro/Nano structures manufacturing

    

Honors and Awards

  1. 1. Japan Society for the Promotion of Science (JSPS) Research Fellowship, 2008, 2009.
  2. 2. ASPEN2009 President Prize Best Paper Award. Numerical and Experimental Investigation on the Transferability of Ultraprecision Glass Molding Press for Microgrooves. Asian Symposium for Precision Engineering and Nanotechnology, 2009.
  3. 3. Young Researcher Award & Best Paper Award .The 5th International Conference on Leading Edge Manufacturing in 21st Century (LEM21, Osaka, Japan), 2009.
  4. 4. The Fok Ying-Tong Education Foundation for Young Teachers in the Higher Education Institutions of China (No. 151052), 2016.
  5. 5. Outstanding Poster. Ultra Precision Manufacturing of Aspheres and Freeforms–Imaging and Non-Imaging Applications (UPM Workshop), 2017.
  6. 6. Young Researcher Award. The 14th China-Japan International Conference on Ultra-Precision Machining Process (CJUMP2018), 2018.