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  1. Cheng Y., Fang F. Z., Zhang X. D., Hu X. T., Design and fabrication of composite solar concentrator. Advanced Precision Engineering. 2010; 447-448: 366-70.

  2. Fang F. Z., Xu Z. W., Hu X. T., Wang C. T., Luo X. G., Fu Y. Q., Nano-photomask fabrication using focused ion beam direct writing. CIRP Annals-Manufacturing Technology. 2010; 59(1): 543-6.

  3. Fu Y. Q., Liu Y., Zhou X. L., Xu Z. W., Fang F. Z., Experimental investigation of super focusing of plasmonic lens with chirped circular nanoslits. Optics Express. 2010; 18(4): 3438-3443.

  4. Gong H., Fang F. Z., Hu X. T., Kinematic view of toot life in rotary ultrasonic side milling of hard and brittle materials. International Journal of Machine Tools & Manufacture. 2010; 50(3): 303-307.

  5. Gong H., Fang F. Z., Hu X. T., Cao L. X., Liu J. A., Optimization of tool positions locally based on the BCELTP for 5-axis machining of free-form surfaces. Computer-Aided Design. 2010; 42(6): 558-570.

  6. Xu Z. W., Fang F. Z., Zhang S. J., Zhang X. D., Hu X. T., Fu Y. Q., Li L., Fabrication of micro DOE using micro tools shaped with focused ion beam. Optics Express. 2010; 18(8): 8025-8032.

  7. Zhang X. D., Fang F. Z., Cheng Y., Wei G. S., High efficiency ultra-precision turning for complex aspheric mirrors. Nanotechnology and Precision Engineering. 2010; (4): 346-351. (in Chinese)

  8. Zhang X. D., Fang F. Z., Wei G. S., Cheng Y., Ultra-precision turning using same-body method for off-axis aspheric mirror. Mechanical Science and Technology for Aerospace Engineering.2010, 29(11):1438-1442.

  9. Qiu Z. J., Fang F. Z., Shina T., Eda H., Chemical mechanical grinding for quartz glass. Optics and Precision Engineering. 2010; 18(7): 1554-1561. (in Chinese)

  10. Wei G. S., Zhang X. D., Fang F. Z., Hu X. T., In-situ measurement method based on ultra-precision machine for optical free-form surface. Optical Technique. 2010; (6): 829-833. (in Chinese)

  11. Wang H. B., Gong H., Fang F. Z., Study on rotary ultrasonic machining system. Aviation Precision Manufacturing Technology. 2010; (5): 39-41. (in Chinese)

  12. Zhao Q. Z., Qiu Z. J., Fang F. Z., Development of image processing system for diamond turning tool automatic grinding device. Diamond&Abrasives Engineering. 2010; (4): 38-41. (in Chinese)

  13. Zhang X. D., Fang F. Z., Cheng Y., Xu Z. W., Zhang S. J., Wei G. S., Ultra-precision machining of Fresnel elements fabricated by micro tools. Infrared and Laser Engineering. 2010; (3): 502-505. (in Chinese)

  14. Zhang S. J., Xu Z. W., Fang F. Z., Hu X. T., Fabrication of micro tool using focused ion beam milling technique. Transactions of Tianjin University. 2010; 43(5): 469-472. (in Chinese)

  15. Han T., Xu Z. W., Fang F. Z., Zhang S. J., Research into the CNT manufacturing technics based on focused ion beam/electron beam technique. Modern Manufacturing Engineering. 2010; (3):5-8. (in Chinese)

  16. Cheng Y., Fang F. Z., Zhang X. D., Ultra-precision turning of aspheric mirrors using error-decreasing amendment method. Optical Technique. 2010; (1): 51-55. (in Chinese)

  17. Cheng, Y., Fang, F. Z., Zhang, X. D., Hu, X. T., Design and fabrication of composite solar concentrator. Key Engineering Materials. 2011; 447-448: 366-370.

  18. Dai T. F., Fang F. Z., Hu X. T., Tool wear study in diamond turning of steels. Journal of Vacuum Science & Technology B. 2009; 27(3): 1335-1339.

  19. Fang F. Z., Xu Z. W., Zhang G. X., Hu X. T., Fabrication and configuration of carbon nanotube probes in atomic force microscopy. CIRP Ann-Manuf Techn. 2009; 58(1): 455-458.

  20. Wang Q. Y., Fang F. Z., Hu X. T., Development of three-axis desktop milling machine. Journal of Vacuum Science & Technology B. 2009; 27(3): 1278-1284.

  21. Wang Y. B., Wang C. L., Xing Q. R., Liu F., Li Y. F., Chai L., Wang Q. Y., Fang F. Z., Zhang X. D., Periodic optical delay line based on a tilted parabolic generatrix helicoid reflective mirror. Appl Optics. 2009; 48(11): 1998-2005.

  22. Xu Z. W., Fang F. Z., Configuration control of carbon nanotube probe in atomic force microscopy. Journal of Vacuum Science & Technology B. 2009; 27(3): 1388-1393.

  23. Xu Z. W., Fang F. Z., Fu Y. Q., Zhang S. J., Han T., Li J. M., Fabrication of micro/nano-structures using focused ion beam implantation and XeF2 gas-assisted etching. Journal of Micromechanics and Microengineering. 2009; 19(5):977-986.

  24. Xu Z. W., Fang F. Z., Hu X. T., Fabrication of carbon nanotube probes in atomic force microscopy. Advances in Abrasive Technology. 2009; 76-78: 497-501.

  25. Zhang S. J., Fang F. Z., Xu Z. W., Hu X. T., Controlled morphology of microtools shaped using focused ion beam milling technique. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures Processing, Measurement, and Phenomena, 2009; 27(3): 1304-1309.

  26. Zhang X. D., Fang F. Z., Wang H. B., Wei G. S., Hu X. T., Ultra-precision machining of sinusoidal surfaces using the cylindrical coordinate method. Journal of Micromechanics and Microengineering. 2009; 19(5): 1050-1055.

  27. Zhang Z. G., Fang F. Z., Hu X. T., Sun C. K., Three-dimensional molecular dynamics modeling of nanocutting. Journal of Vacuum Science & Technology B. 2009; 27(3): 1340-1344.

  28. Zhang Z. G., Fang F. Z., Hu X. T., Sun C. K., Molecular dynamics study on various nanometric cutting boundary conditions. Journal of Vacuum Science & Technology B. 2009; 27(3): 1355-1360.

  29. Zhang X. D., Fang F. Z., Cheng Y., Optimized design of cutting path for freeform surface in ultra-precision turning. Transactions of Tianjin University. 2009; 42(3): 278-282. (in Chinese)

  30. Xu Z. W., Fang F. Z., Zhang S. J., Han T., Li J. M. Fabrication of complicated micronano structures using focused ion beam milling method. Transactions of Tianjin University. 2009; 42(1):91-94. (in Chinese)

  31. Xu Z. W., Zhang S. J., Fang F. Z., Dong S., Chen Y. H. Effects of carbon nanotube probe mechanical properties on its performance. Chinese Journal of Scientific Instrument. 2009; 30(1):157-161. (in Chinese)

  32. Xu Z. W.,Fang F. Z., Zhang S. J., Chen Y. H. Fabrication of micro/nano structures using focused ion beam implantation technology. Transactions of the Heilongjiang University of Science and Technology. 2009; 28(1): 62-67. (in Chinese)

  33. YiM. B., Fang F. Z., Wang Q. W. Research on micro electrical discharge machining system and technics. Modern Manufacturing Engineering. 2009; (3):70-74. (in Chinese)

  34. Zhang X. D., Fang F. Z. Automatic processing algorithm of calibration pattern for structured light vision sensor. Chinese Journal of Sensors and Actuators. 2009; 22(10): 1426-1431. (in Chinese)

  35. Ni H., Gong H., Fang F. Z., Study on edge-chipping of brittle and hard materials in rotary ultrasonic machining. Manufacturing Technology. 2009; 45(5): 8-10. (in Chinese)

  36. Xu Z. W., Fang F. Z., Zhao T. Q., Dong S. Nano morphology of mice IgG protein with carbon nanotube probe. Journal of Tianjin University. 2009; 42(10): 919-922. (in Chinese)

  37. Ding X. Z., Zeng X. T., Liu Y. C., Fang F. Z., Lim G. C. Cr(1-x)Al(x)N coatings deposited by lateral rotating cathode arc for high speed machining applications. Thin Solid Films. 2008; 516(8): 1710-1715.

  38. Fang F. Z., Xu Z. W., Dong S. Study on phase images of a carbon nanotube probe in atomic force microscopy. Measurement Science & Technology. 2008; 19(5): 055051(1-7).

  39. Fang F. Z., Zhang X. D., Hu X. T. Cylindrical coordinate machining of optical freeform surfaces. Optics Express. 2008; 16(10): 7323-7329.

  40. Liu N., Zhang Y. M., Fang F. Z. A novel method of lens initial structure selection: study on structures-aperture relationship of finite image distance achromatic spherical microscope objective with larger numerical aperture. Optical Design and Testing Parts 1 and 2. 2008; 6834: A8343-A8343.

  41. Woon K. S., Rahman M., Fang F. Z., Neo K. S., Liu K. Investigations of tool edge radius effect in micromachining: A FEM simulation approach. Journal of Materials Processing Technology. 2008; 195(1-3): 204-211.

  42. Zhang G. X., Yao J. W., Qiu Z. R., Hu W. C., Fang F. Z., Li X. H. Large-scale space angle measurement. CIRP Annals-Manufacturing Technology. 2008; 57(1): 525-528.

  43. Fang F. Z., Wang L. Research on the cutting mold steel by applying ultrasonic vibration. Modern Manufacturing Engineering. 2008; (11): 54-58. (in Chinese)

  44. Zhang Z. G., Fang F. Z., Sun C. K., Nano-scale cutting mechanism by molecular dynamics simulation. Design, Manufacturing, and Testing of Micro- and Nano-Optical Devices and Systems. 2007; 6724: 109-114.

  45. Zhang S. J., Fang F. Z., Hu X. T., Advances of focused ion beam in micromachining technology. Design, Manufacturing, and Testing of Micro- and Nano-Optical Devices and Systems. 2007; 6724: E7240-E.

  46. Wang Q. Y., Fang F. Z., Hu X. T., Comprehensive review of micro/meso-scale machine tools. Design, Manufacturing, and Testing of Micro- and Nano-Optical Devices and Systems. 2007; 6724: K7241.

  47. Fang F. Z., Xu Z. W., Dong S., Zhang G. X. High aspect ratio nanometrology using carbon nanotube probes in atomic force microscopy. CIRP Annals-Manufacturing Technology. 2007; 56(1): 533-536.

  48. Fang F. Z., Wu H., Zhou W., Hu X. T., A study on mechanism of nano-cutting single crystal silicon. Journal of Materials Processing Technology. 2007; 184(1-3): 407-410.

  49. Fang F. Z., Liu Y., Pei Q. X., Method of examining surface cracks on monocrystalline silicon. Key Materials Engineering. 2007; 364-366: 902-924.

  50. Wu H., Fang F. Z., Pei Q. X., Study on nanometric cutting mechanism and burr formation using molecular dynamics simulation. International Journal of Nanoscience. 2006; 5(4-5): 547-551.

  51. Pei Q. X., Lu C., Fang F. Z., Wu H., Molecular dynamics simulation of nanometric cutting process. International Journal of Nanoscience. 2006; 5(4-5): 633-638.

  52. Pei Q. X., Lu C., Fang F. Z., Wu H., Nanometric cutting of copper: A molecular dynamics study. Computational Materials Science. 2006; 37(4): 434-441.

  53. Fang F. Z., Xiong Z., Hui X. T., An experimental study of micromachining step-mirrors for laser-diode beam shaping. Journal of Micromechanics and Microengineering. 2006; 16(2): 214-218.

  54. Fang F. Z., Liu Y. C., Energy variation of micro-cracking on single crystal silicon. Advanced Laser Technologies Parts 1 and 2. 2006; 6344: 366-371.

  55. Fang F. Z., Wu H., Liu Y. C., Modelling and experimental investigation on nanometric cutting of monocrystalline silicon. International Journal of Machine Tools & Manufacture. 2005; 45(15): 1681-1686.

  56. Fang F. Z., Lee L. C., Liu X. D., Mean flank temperature measurement in high speed dry cutting of magnesium alloy. Journal of Materials Processing Technology. 2005; 167(1): 119-123.

  57. Fang F. Z., Ramesh K, Liu X. D., Polishing micro holes of optical fiber ferrules. Nanotechnology and Precision Engineering. 2005; 3(2):146-150. (in Chinese)

  58. Qiu G. P., Feng X., Fang F. Z., Compressing histogram representations for automatic colour photo categorization. Pattern Recognition. 2004; 37(11): 2177-2193.

  59. Fang F. Z., Zhang G. X., An experimental study of optical glass machining. International Journal of Advanced Manufacturing Technology. 2004; 23(3-4): 155-160.

  60. Fang F. Z., Liu Y. C., On minimum exit-burr in micro cutting. Journal of Micromechanics and Microengineering. 2004; 14(7): 984-988.

  61. Fang F. Z., Zhang G. X., An experimental study of edge radius effect on cutting single crystal silicon. International Journal of Advanced Manufacturing Technology. 2003; 22(9-10): 703-707.

  62. Fang F. Z., Wu H., Liu X. D., Liu Y. C., Ng S. T., Tool geometry study in micromachining. Journal of Micromechanics and Microengineering. 2003; 13(5): 726-731.

  63. Fang F. Z., Liu X. D., Lee L. C., Micro-machining of optical glasses - A review of diamond-cutting glasses. Sadhana-Academy Proceedings In Engineering Sciences. 2003; 28: 945-955.

  64. Fang F. Z., Liu X. D., Lee L. C., Ultra-precision machining of brittle Materials--A review of diamond-cutting brittle materials. Nanotechnology and Precision Engineering. 2003; 1(1):38-47. (in Chinese)

  65. Zhang G. X., Li X. H., Lin Y. B., Fang F. Z., Design and error analysis of laser tracking system. China Mechanical Engineering. 2003; 14(6): 501-504. (in Chinese)

  66. Fang F. Z., Venkatesh V. C., Zhang G. X., Diamond turning of soft semiconductors to obtain nanometric mirror surfaces. International Journal of Advanced Manufacturing Technology. 2002; 19(9): 637-641.

  67. Fang F. Z., Chen L. J., Ultra-precision cutting for ZKN7 glass. CIRP Annals-Manufacturing Technology. 2000: 17-20.

  68. Fang F. Z., Nano-turning of single crystal silicon. Journal of Materials Processing Technology. 1998; 82(1-3): 95-101.

  69. Fang F. Z., Venkatesh V. C., Diamond cutting of silicon with nanometric finish. CIRP Annals-Manufacturing Technology. 1998; 47(1): 45-49.

  70. Fang F. Z., Zhang Y. Q., Zhang G. X., A position-setting method of six-freedom in space. Aviation Precision Manufacturing Technology. 1998; 2: 37-39.(In Chinese)

  71. Fang F. Z., Achieving the threshold barrier of 1 nm roughness value by diamond turning of silicon surfaces. Chinese Journal of Mechanical Engineering. 1998; 11(1): 6-10.

  72. Venkatesh V. C., Fang F. Z., Chee W. K., On mirror surfaces obtained with and without polishing. CIRP Annals-Manufacturing Technology. 1997; 46(1): 505-550.

  73. Fang F. Z., Zhang G. X., Acoustooptic modulated laser measuring technique. Manufacturing Technology & Machine Tool.1996; 6: 8-11. (in Chinese)

  74. Fang F. Z., Dong S., X-ray interferometry for nanometric measurement. Chinese Journal of Scientific Instrument. 1995; 16(1): 28-31. (in Chinese)

  75. Fang F. Z., Yuan, Z. J., An open measuring system for ultra-precision machine tools. Manufacturing Technology & Machine Tool. 1994; 7: 17-19. (in Chinese)

  76. Fang F. Z., Yuan Z. J., Positioning and measuring technique on ultra-precision turning machines. China Mechanical Engineering. 1994; 5(2): 49-51. (in Chinese)

  77. Fang F. Z., Yuan Z. J., An application of Intel 8098 in precision measurement. Journal of Machinery & Electronics. 1994; 2: 28-30. (in Chinese)

  78. Fang F. Z., Yuan Z. J., Investigation on in-process measuring system of ultra-precision turning machines and design on hardware of rapid data acquisition. Journal of Tooling Engineering. 1994;11: 20-22. (in Chinese)

  79. Zhao F., Fang F. Z., A new machining technique for piston grooves. Journal of Mining Machinery. 1989; 6: 24-25. (in Chinese)

  80. Zhao F., Fang F. Z., Precision grinding with the abrasive belt. Mechanical Engineer. 1989; 3: 38-39. (in Chinese)

  81. Shu Z., Fang F. Z., Design on the speed-transformation of gear-hobCbing machine. Journal of Mining Machinery. 1987; 2: 19-21. (in Chinese)

  82. Fang F. Z., Investigation on the new tip relief profile of involute gears. Journal of Mining Machinery. 1987; 1:14-16. (in Chinese)

  83. Fang F. Z., Liang X.C., CAD on the involute curve generator. Machine Design. 1986; 3: 31-34. (in Chinese)

  84. Wang X., Fang F. Z., Precision form-grinding on the gears of gear-pump. Journal of Hydraulics & Penumatics. 1986; 3: 42-44. (in Chinese)

  85. Liang X. C., Fang F. Z., Wang X. J., Gear form-grinding and the design of the dressing system. Journal of Gear. 1984; 5: 31-33. (in Chinese)

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