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团队简介
Team Introduction
复杂光学器件高精度制造被天津大学确定为学校重点资助的研究方向,经过十年来的发展,在超精密加工、微纳加工、复杂曲面超精密加工与检测等领域取得良好进展,目前已成为微纳制造领域国际上有影响力的研究机构之一。候选人是天津大学复杂光学器件高精度制造领域的学术带头人。在复杂光学器件加工机理、新方法、新工艺及关键领域应用等方面,开展了具有特色和一定影响力的科学研究,在航空航天等重点领域得到了广泛应用和好评,取得了丰硕的研究成果。通过多年的努力,建立并形成了强有力的硬件平台,其中包括超精密加工、超精密检测、光学设计等国际先进的软硬件平台。同时,形成了一支结构合理、业务素质高、有创新想法和朝气的年轻科研团队,结合所研究领域的学科交叉特点,科研团队成员涵盖机械工程、精密测试、物理学等专业背景,并包括多名具有超精密加工和测量等丰富技能的工程师及光学设计师。
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg部分授权专利:
1. 张效栋,房长帅,一种曲面透光件多层同步测量方法,天津大学,发明专利号2019106007670,2020-12-11
2. 张效栋,李娜娜,朱琳琳,一种基于线激光的织物织造在线疵点检测方法,天津大学,发明专利号2019100344187,2020-04-28
3. 张效栋,李泽骁,朱琳琳,一种小型化超短焦视觉成像方法,天津大学,发明专利号2018110117414,2020-08-07
4. 张效栋,王金石,房丰洲,一种晶体材料超精密车削加工损伤控制方法,天津大学,发明专利号2017103586329,2019-03-01
5. 张效栋,房丰洲,李泽骁,朱琳琳,脆性材料复杂曲面快速伺服超精密飞刀切削加工方法,天津大学,发明专利号201710358648X,2019-06-25
6. 张效栋,房丰洲,李泽骁,脆性材料复杂曲面超精密车削成型方法,天津大学,发明专利号2017104274818,2019-02-26
7. 张效栋,房丰洲,李泽骁,朱琳琳,一种脆性材料复杂曲面的加工方法,天津大学,发明专利号2017103580286,2019-05-10
8. 张效栋,房丰洲,武光创,用于形貌测量的光路系统,天津大学,发明专利号2016110613504,2016-11-25
9. 张效栋,曾臻,高慧敏,武光创,一种高精度复杂形貌快速测量方法,天津大学,发明专利号2016110597520,2019-01-22
10. 张效栋,房丰洲,曾臻,高慧敏,武光创,一种白光干涉及激光扫描结合的形貌测量方法及装置,天津大学,发明专利号2016110624532,2019-01-22
11. 张效栋,房丰洲,一种虚拟现实目镜设计及制造方法,天津大学,发明专利号2016108874972,2018-08-31
12. 房丰洲,张效栋,一种自由曲面棱镜加工方法,天津大学,发明专利号20111002310212013-04-17
13. 房丰洲,程颖,张效栋,一种基于平面镜阵列的反射型光学积分器设计方法,天津大学,发明专利号2011100678961,2013-08-28
14. 张效栋,房丰洲,程颖,基于柔性测头的超精密原位测量装置及超精密加工方法,天津大学,发明专利号2010100313173,2012-05-23
15. 张效栋,房丰洲,杨朝鹏,卢永斌,三角形金刚石刀具角度高精度自动测量系统和测量方法,天津大学,发明专利号2009103121257,2011-06-29
16. 房丰洲,张效栋,复眼结构光学元件的一种车削加工方法,天津大学,发明专利号2008100520566,2009-11-18
17. 房丰洲,张效栋,一种金刚石超精密车床自由曲面加工路径生成方法,天津大学,发明专利号2007100583433,2009-08-26
18. 张效栋,房丰洲,一种微结构阵列器件制造方法,天津大学,发明专利号2015101940466,2016-08-17
19. 张效栋,卢永斌,房丰洲,刘现磊,一种仿生复眼成像系统的光阑阵列加工方法,天津大学,发明专利号2015102197305,2016-08-24
论文、专著
1. Fengzhou Fang*, Xiaodong Zhang, Xiaotang Hu. Cylindrical coordinate machining of optical freeform surfaces. Optics express, 2008, 16(10): 7323-7329.
2. Xiaodong Zhang, Fengzhou Fang*, Huaibin Wang, et al. Ultra-precision machining of sinusoidal surfaces using the cylindrical coordinate method. Journal of Micromechanics and Microengineering, 2009, 19(5): 054004.
3. Zongwei Xu, Fengzhou Fang*, Shaojing Zhang, Xiaodong Zhang, et al. Fabrication of micro DOE using micro tools shaped with focused ion beam. Optics Express, 2010, 18(8): 8025-8032.
4. Fengzhou Fang*, Yunhui Chen, Xiaodong Zhang, Xiaotang Hu. Nanometric cutting of single crystal silicon surfaces modified by ion implantation. CIRP Annals - Manufacturing Technology, 2011, 60(1): 527-530.
5. Xiaodong Zhang, Huimin Gao, Yuewu Guo, Guoxiong Zhang*. Machining of optical freeform prisms by rotating tools turning. CIRP Annals -Manufacturing Technology, 2012, 61(1): 519-522.
6. Xiaodong Zhang, Fengzhou Fang*, Linhui Yu, et al. Slow slide servo turning of compound eye lens. Optical Engineering, 2013, 52(2): 023401-023401.
7. Fengzhou Fang*, Xiaodong Zhang, Albert Weckenmann, Guoxiong Zhang, Chris Evans, Manufacturing and Measurement of Freeform Optics, CIRP Annuals - Manufacturing Technology, 2013, 62(2), 2013, 823–846.
8. Lili Jiang, Xiaodong Zhang*, Inspection algorithm based on Gaussian filtering for oil seal spring, Optical Engineering, 2014, 53(10), 102108.
9. Huimin Gao, Fengzhou Fang, Xiaodong Zhang*, Reverse analysis on the geometric errors of ultra-precision machine. The International Journal of Advanced Manufacturing Technology, 2014, 73:1615-1624.
10. Xiaodong Zhang, Lili Jiang, Zhen Zeng, Fengzhou Fang*, Xianlei Liu, High angular accuracy manufacture method of micro v-grooves based on tool alignment by on-machine measurement, Optics Express, 2015, 23(21), 27819-27828
11. Xiaodong Zhang, Zhen Zeng, Xianlei Liu, Fengzhou Fang*, Compensation strategy for machining optical freeform surfaces by the combined on- and off-machine measurement, Optics Express, 2015, 23(19): 24800-24810.
12. Xianlei Liu, Xiaodong Zhang*, Fengzhou Fang*, Zheng Zeng, Huimin Gao, Xiaotong Hu, Influence of machining errors on form errors of microlens array in ultra-precision turning, International Journal of Machine Tools and Manufacture, 2015, 96, 80-93.
13. Jinshi Wang, Fengzhou Fang*, Xiaodong Zhang*, An experimental study of cutting performance on monocrystalline germanium after ion implantation, Precision Engineering, 2015, 39, 220-223.
14. Xianlei Liu, Xiaodong Zhang*, Fengzhou Fang*, Shugui Liu, Identification and compensation of main machining errors on surface form accuracy in ultra-precision diamond turning, International Journal of Machine Tools and Manufacture, 2016, 105: 45-57.
15. Fengzhou Fang*, Xiaodong Zhang, Wei Gao, Yuebin Guo, Gerry Byrne, Hans N. Hansen, Nanomanufacturing – perspective and applications, CIRP Annals - Manufacturing Technology, 2017, 66(2): 683-705.
16. Xiaodong Zhang, Lihua Li*, Zexiao Li, Changyuen Chan, Linin Zhu, Wingbun Lee, Fengzhou Fang, Highly uniform manufacturing method for large-area microlens arrays, International Journal of Advanced Manufacturing Technology, 2017, 95(1-4):99-108.
17. Zexiao Li, Fengzhou Fang, Xiaodong Zhang*, Xianlei Liu, Huimin Gao, Highly efficient machining of non-circular freeform optics using fast tool servo assisted ultra-precision turning, Optics Express, 2017, 25(21): 25243-25256.
18. Xiaodong Zhang, Lili Jiang, Guoxiong Zhang*, Novel method of positioning optical freeform surfaces based on fringe deflectometry, CIRP Annals - Manufacturing Technology, 2017, 66(1): 507-510.
19. Xianlei Liu, Xiaodong Zhang*, Fengzhou Fang, Zhen Zeng, Performance-controllable manufacture of optical surfaces by ultra-precision machining, International Journal of Advanced Manufacturing Technology, 2017, 94(9-12):4289-4299.
20. Zexiao Li, Fengzhou Fang, Jinjin Chen, Xiaodong Zhang*, Manufacturing strategy of freeform optics on infrared materials via ultra-precision turning, Optics Express, 2017, 25(3): 2051-2062.
21. Jinshi Wang, Fengzhou Fang, Xiaodong Zhang*, Nanometric cutting of silicon with crystalline-amorphous layer structure: a molecular dynamics study, Nanoscale research letters, 2017, 12: 41.
22. Linlin Zhu, Zexiao Li, Fengzhou Fang, Zhen Zeng, Xiaodong Zhang*, Review of machining optical freeform surfaces by fast tool servo, International Journal of Advanced Manufacturing Technology, 2018, 95, 2071–2092.
23. Xiaodong Zhang, Zexiao Li, Guoxiong Zhang*, High performance ultra-precision turning of large-aspect-ratio rectangular freeform optics. CIRP Annals , 2018, 67(1):543-546.
24. Lili Jiang, Xiaodong Zhang* and Fengzhou Fang. Nonlinear phase error compensation for fringe deflectometry measuring system. International Journal of Nanomanufacturing, 2018, 14(2):115
25. Xin Zheng, Zexiao Li, Xiaodong Zhang,* and Fengzhou Fang. Manufacturing-constrained optical design methodology for cylindrical freeform reflective imaging system. Optics Express 2018, 26, 22547-22562.
26. Changshuai Fang, Linlin Zhu, Ning Yan, and Xiaodong Zhang*, Bilayer Synchronous Measuring Method of Curved Screen Based on a Line-structured Light-scanning Sensor. Applied Optics. 2019, 59(4): 929-939.
27. Jinda Pan, Ning Yan, Linlin Zhu, Xiaodong Zhang* and Fengzhou Fang. Comprehensive Defect Detection Method for Small-sized Curved Optical Lens [J]. Applied Optics. 2020. 59, 234-243.
28. Liangliang Chen, Ning Yan, Hongmai Yang, Linlin Zhu,Zongwei Zheng,Xudong Yang,Xiaodong Zhang*. A Data Augmentation Method for Deep Learning Based on Multi-Degree of Freedom (DOF) Automatic Image Acquisition. applied sciences, 2020, 10(21),7755.
29. Linlin Zhu, Yuchu Dong, Zexiao Li and Xiaodong Zhang*. A Novel Surface Recovery Algorithm for Dual Wavelength White LED in Vertical Scanning Interferometry (VSI). Sensors. 2020. 20, 5225.
30. Li Miao, Linlin Zhu, Changshuai Fang, Ning Yan, Xudong Yang, Xiaodong.Zhang* Modeling and Analysis of System Error for Highly Curved Freeform Surface Measurement by Noncontact Dual-Axis Rotary Scanning. Sensors (Basel). 2021 Jan 14;21(2):554.
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