참고문헌 (60)

1. IEEE J Sel Areas Commun JG Andrews 32 6 1065 2014 10.1109/JSAC.2014.2328098 Andrews JG, Buzzi S, Wan C, Hanly SV, Lozano A, Soong ACK, Zhang JZC (2014) What will 5G be? IEEE J Sel Areas Commun 32(6):1065-1082 

   상세보기

2. Fujitsu Sci Tech J N Fujino 52 4 68 2016 Fujino N, Ogawa K, Minowa M (2016) Wireless network technologies to support the age of IOT. Fujitsu Sci Tech J 52(4):68-76 

3. B Curran 528 2016 Dielectric material characterization of high frequency printed circuit board laminates and an analysis of their transmission line high frequency losses Curran B, Tschoban C, Ndip I, Lang KD, Kroener H, Ippich A (2016) Dielectric material characterization of high frequency printed circuit board laminates and an analysis of their transmission line high frequency losses. Microwave Integrated Circuits Conference IEEE, London, pp 528-531 

4. Circuit World HY Shi 39 2 75 2013 10.1108/03056121311315792 Shi HY, Li H (2013) Challenges and developments of micro drill bit for printed circuit board: a review. Circuit World 39(2):75-81 

   상세보기

5. Print Circuit Inf S Yang 11 44 2017 Yang S, Gu AJ, Liang GZ, Li XM, Chen C (2017) Preparation and properties of copper clad laminates for high frequency and high speed application. Print Circuit Inf 11:44-48 

6. Printed Circuit Inf D Zhu 8 14 2003 Zhu D (2003) Evaluation and selection of high speed and high frequency substrate material used in PCB. Printed Circuit Inf 8:14-19 

7. Copper Clad Laminate Inf D Zhu 5 19 2015 Zhu D (2015) Development and analysis of high speed substrate material technology. Copper Clad Laminate Inf 5:19-30 

8. Iran Polym J YH Tu 25 10 863 2016 10.1007/s13726-016-0472-2 Tu YH, Yu RB, Duan JZ, Hu L (2016) Cyanate ester resin modified by phenolic resin containing diphenyl oxide segments with high molecular weight. Iran Polym J 25(10):863-873 

   상세보기

9. IEEE Trans Microwave Theory Tech O Huber 66 1 237 2018 10.1109/TMTT.2017.2750152 Huber O, Faseth T, Magerl G, Arthaber H (2018) Dielectric characterization of RF-printed circuit board materials by microstrip transmission lines and conductor-backed coplanar waveguides up to 110 GHz. IEEE Trans Microwave Theory Tech 66(1):237-244 

   상세보기

10. O Suzuki 1 2017 IEEE Suzuki O (2017) Nanoscale profile copper for high speed transmission printed wiring boards. Microelectronics symposium. In: IEEE, vol 2017. Pan Pacific Microelectronics Symposium, Kauai, pp 1-6 

11. Copper Clad Laminate Inf CX Wang 6 12 2015 Wang CX, Li ZF (2015) Analysis on the new demand of PCB technology development on the performance of copper clad laminate. Copper Clad Laminate Inf 6:12-18 

12. Circuit World L Fu 36 4 30 2010 10.1108/03056121011087212 Fu L, Li X, Guo Q (2010) Development of a micro drill bit with a high aspect ratio. Circuit World 36(4):30-34 

    상세보기

13. Li H (2014) Studies on the characteristics of static-dynamic and temperature in precision micro drilling. Dissertation, Shenzhen University 

14. Circuit World LF Wang 40 2 61 2014 10.1108/CW-11-2013-0048 Wang LF, Zheng LJ, Wang CY, Li S, Song YX (2014) Experimental study on micro drills wear during high speed of drilling IC substrate. Circuit World 40(2):61-70 

    상세보기

15. Printed Circuit Board Inf CG Ji 2 108 2018 Ji CG, Chen ZQ, Wan LP (2018) Development and processibility of the substrate material used in PCB. Printed Circuit Board Inf 2:108-112 

16. Precis Eng B Bhandari 38 1 221 2014 10.1016/j.precisioneng.2013.07.010 Bhandari B, Hong YS, Yoon HS, Moon JS, Pham MQ, Lee GB, Huang YC, Linke BS, Dornfeld DA, Ahna SH (2014) Development of a micro-drilling burr-control chart for PCB drilling. Precis Eng 38(1):221-229 

    상세보기

17. J Mater Process Technol H Nakagawa 191 1 293 2007 10.1016/j.jmatprotec.2007.03.025 Nakagawa H, Ogawa K, Kihara A, Hirogaki T (2007) Improvement of micro-drilled hole quality for printed wiring boards. J Mater Process Technol 191(1):293-296 

    상세보기

18. Ning JL (2016) Study on the influence mechanism of drilling temperature and the prediction of drilling force in PCB ultra-high speed drilling. Dissertation, Shenzhen University 

19. Circuit World HY Shi 41 1 7 2015 10.1108/CW-10-2014-0046 Shi HY, Ning JL, Li H (2015) Performance analysis of micro drill bit with asymmetric helix groove. Circuit World 41(1):7-13 

    상세보기

20. J Manuf Process M Hasan 29 343 2017 10.1016/j.jmapro.2017.08.006 Hasan M, Zhao JW, Jiang ZY (2017) A review of modern advancements in micro drilling techniques. J Manuf Process 29:343-375 

    상세보기

21. Int J Adv Manuf Technol SY Zhang 92 5-8 2939 2017 10.1007/s00170-017-0265-6 Zhang SY, Wang XB, Liang ZQ, Zhou TF, Jiao L, Yan PY (2017) Modeling and optimization of the flute profile of micro drill. Int J Adv Manuf Technol 92(5-8):2939-2952 

    상세보기

22. Int J Adv Manuf Technol L Yan 64 9-12 1387 2013 10.1007/s00170-012-4109-0 Yan L, Jiang F (2013) A practical optimization design of helical geometry drill point and its grinding process. Int J Adv Manuf Technol 64(9-12):1387-1394 

    상세보기

23. Mater Sci Eng Conf Ser DT Nguyen 241 1 2017 Nguyen DT, Hoang TD, Lee AC (2017) Structure optimization of a micro drill bit with nonlinear constraints considering the effects of eccentricity, gyroscopic moments, lateral and torsional vibrations. Mater Sci Eng Conf Ser 241:1-6 

24. Comput Assist Methods Eng Sci TD Hoang 23 191 2016 Hoang TD, Nguyen DT, Lee AC (2016) An optimal design of micro-drill from the aspect of vibration analysis. Comput Assist Methods Eng Sci 23:191-204 

25. Cemented Carbide Q Guo 32 5 317 2015 Guo Q, Ning JL (2015) Optimization design of micro drill for printed circuit board. Cemented Carbide 32(5):317-322 

26. Printed Circuit Inf LY Fu 1 47 2007 Fu LY, Yu ZC, Qu JG, Zou WX (2007) Study on fem analysis of micro drill bit for PCB. Printed Circuit Inf 1:47-50 

27. Circuit World LY Fu 36 3 23 2010 10.1108/03056121011066305 Fu LY, Guo Q (2010) Development of an ultra-small micro drill bit for packaging substrates. Circuit World 36(3):23-27 

    상세보기

28. Printed Circuit Inf Y Lin 7 58 2015 Lin Y, Xie ET, Xing RM, Chai C (2015) Research on hole location for high aspect ratio drilling. Printed Circuit Inf 7:58-60 

29. J Mater Process Technol LJ Zheng 212 10 1989 2012 10.1016/j.jmatprotec.2012.05.004 Zheng LJ, Wang CY, Fu LY, Yang LP, Qu YP, Song YX (2012) Wear mechanisms of micro-drills during dry high speed drilling of PCB. J Mater Process Technol 212(10):1989-1997 

    상세보기

30. Surf Coat Technol WH Kao 204 8 1277 2010 10.1016/j.surfcoat.2009.10.016 Kao WH, Su YL, Yao SH, Huang HC (2010) Optimizing the tribological properties and high-speed drilling performance of a-C:H coatings via nitrogen addition. Surf Coat Technol 204(8):1277-1287 

    상세보기

31. Adv Mater Res WH Kao 591-593 342 2011 10.4028/www.scientific.net/AMR.591-593.342 Kao WH, Su YL, Yao SH, Huang HC, Chen MS (2011) The study of high speed micro-drilling performance and machining quality of coated micro-drills with Zr-C:H coatings. Adv Mater Res 591-593:342-346 

    상세보기

32. Printed Circuit Inf HY Zhang 12 17 2016 Zhang HY, Wang J, Fu LY (2016) Application of super-hard SHD coating on micro-tools for drilling PCB filled with ceramic particles. Printed Circuit Inf 12:17-20 

33. J Mater Process Tech SH Yao 210 4 660 2010 10.1016/j.jmatprotec.2009.12.001 Yao SH, Su YL, Kao WH, Cheng KW, Su CT (2010) Nanolayer CrNx_WNy coatings used on micro drills for machining of printed circuit boards. J Mater Process Tech 210(4):660-668 

    상세보기

34. 10.1299/transjsme.17-00094 Yoshimura H, Horita K, Hoshi Y, Nagasawa K (2017) Study on micro drilling of printed circuit board using DLC coated drill. Trans JSME 83. https://doi.org/10.1299/transjsme.17-00094 

    상세보기

35. Int J Refract Met Hard Mater XL Lei 43 3 30 2014 10.1016/j.ijrmhm.2013.10.016 Lei XL, Shen B, Cheng L, Sun FH, Chen M (2014) Influence of pretreatment and deposition parameters on the properties and cutting performance of NCD coated PCB micro drills. Int J Refract Met Hard Mater 43(3):30-41 

    상세보기

36. 10.1142/S0218625X15501085 Lei XL, Y HE, Sun FH (2016) Optimization of CVD diamond coating type on micro drills in PCB machining. Surf Rev Lett 23(02):1550108-1-1550108-8 

    상세보기

37. Adv Mater Res LP Yang 188 429 2011 10.4028/www.scientific.net/AMR.188.429 Yang LP, Huang LX, Wang CY, Zheng LJ, Ma P, Song YX (2011) Drilling force and chip morphology in drilling of PCB supported hole. Adv Mater Res 188:429-434 

    상세보기

38. Mater Des AM Abrã 29 2 508 2008 10.1016/j.matdes.2007.01.016 Abrã AM, Rubio JCC, Faria PE, Davim JP (2008) The effect of cutting tool geometry on thrust force and delamination when drilling glass fibre reinforced plastic composite. Mater Des 29(2):508-513 

    상세보기

39. CIRP J Manuf Sci Technol RS Anand 16 55 2017 10.1016/j.cirpj.2016.07.002 Anand RS, Patra K (2017) Mechanistic cutting force modelling for micro drilling of CFRP composite laminates. CIRP J Manuf Sci Technol 16:55-63 

    상세보기

40. Key Eng Mater LJ Zheng 496 259 2012 10.4028/www.scientific.net/KEM.496.259 Zheng LJ, Wang CY, Qu YP, Yang LP, Song YX (2012) The investigation of thrust force of printed circuit board drilling. Key Eng Mater 496:259-265 

    상세보기

41. Adv Mater Res YP Qu 500 26 2012 10.4028/www.scientific.net/AMR.500.26 Qu YP, Wang CY, Zheng LJ, Song YX (2012) Wavelet transform denoise of PCB drilling force signal. Adv Mater Res 500:26-31 

    상세보기

42. Circuit World XH Zheng 39 2 82 2013 10.1108/03056121311315800 Zheng XH, Xu ZW, An Q, Wang XB, Chen M, Liu ZQ (2013) Experimental investigation of micro drilling of printed circuit board. Circuit World 39(2):82-94 

    상세보기

43. Mater Manuf Process RS Anand 33 12 1369 2017 10.1080/10426914.2017.1401715 Anand RS, Patra K (2017) Cutting force and hole quality analysis in micro drilling of CFRP. Mater Manuf Process 33(12):1369-1377 

    상세보기

44. Appl Mech Mater F Gong 246-247 1017 2012 10.4028/www.scientific.net/AMM.246-247.1017 Gong F, Chen BQ, Li JB (2012) Experimental study on PCB micro drilling force. Appl Mech Mater 246-247:1017-1021 

    상세보기

45. Int J Adv Manuf Technol RS Anand 88 1-4 241 2016 Anand RS, Patra K, Steiner M, Biermann D (2016) Mechanistic modeling of micro drilling cutting forces. Int J Adv Manuf Technol 88(1-4):241-254 

46. Adv Mater Res XH Zheng 426 223 2012 10.4028/www.scientific.net/AMR.426.223 Zheng XH, Liu ZQ, An QL, Chen M, Wang CY (2012) Experimental research on the high speed drilling of PCB using micro drill. Adv Mater Res 426:223-226 

    상세보기

47. Mater Sci Forum X Huang 836-837 2 592 2016 10.4028/www.scientific.net/MSF.836-837.592 Huang X, Chen ZS, Wang CY, Zheng LJ, Song YX (2016) Measurement of micro drill breakage during PCB drilling. Mater Sci Forum 836-837(2):592-599 

    상세보기

48. Circuit World HY Shi 43 3 89 2017 10.1108/CW-12-2016-0066 Shi HY, Lin XK, Wang Y (2017) Characterization of drill bit breakage in PCB drilling process based on high speed video analysis. Circuit World 43(3):89-96 

    상세보기

49. Adv Mater Res ZH Ren 497 126 2012 10.4028/www.scientific.net/AMR.497.126 Ren ZH, Zheng XH, An QL, Wang CY, Chen M (2012) Tool breakage feature extraction in PCB micro hole drilling using vibration signals. Adv Mater Res 497:126-131 

    상세보기

50. Sun YH (2009) Research on the breakage mechanism of micro-drills and drilling forces online monitoring. Dissertation, Jilin University 

51. Mach Des Manuf H Wang 12 160 2011 Wang H, Bi JP, Liu JY, Guo P (2011) Online monitoring method for micro hole drilling based on rough fuzzy neural network. Mach Des Manuf 12:160-162 

52. Sun Y and Tian M (2018) Research on intelligent monitoring technology of micro hole drilling. International Conference on Computer Network, Electronic and Automation (ICCNEA), Xi’an, China, p. 446-450 

53. Int J Precis Eng Manuf CY Wang 16 8 1689 2015 10.1007/s12541-015-0222-y Wang CY, Chen YH, An QL, Cai XJ, Ming WW, Chen M (2015) Drilling temperature and hole quality in drilling of CFRP/aluminum stacks using diamond coated drill. Int J Precis Eng Manuf 16(8):1689-1697 

    상세보기

54. Printed Circuit Inf HB Chen 7 41 2008 Chen HB, Fu LY, Zou WX (2008) Optimization of PCB drill bits life based on reliability analysis. Printed Circuit Inf 7:41-44 

55. Cui YX (2012) Research on micro-drilling online monitoring based on double neural network. Dissertation, Jilin University 

56. Circuit World LY Fu 38 2 55 2012 10.1108/03056121211222246 Fu LY, Guo Q (2012) On-line temperature measurement of a micro drill bit. Circuit World 38(2):55-58 

    상세보기

57. Int J Adv Manuf Technol LJ Zheng 77 5-8 1305 2015 10.1007/s00170-014-6520-1 Zheng LJ, Wang CY, Qu YP, Song YX, Fu LY (2015) Interaction of cemented carbide micro-drills and printed circuit boards during micro-drilling. Int J Adv Manuf Technol 77(5-8):1305-1314 

    상세보기

58. Precis Eng JS Moon 38 3 691 2014 10.1016/j.precisioneng.2014.03.002 Moon JS, Yoon HS, Lee GB, Ahn SH (2014) Effect of backstitch tool path on micro-drilling of printed circuit board. Precis Eng 38(3):691-696 

    상세보기

59. Int J Mach Tool Manu LJ Zheng 52 1 40 2012 10.1016/j.ijmachtools.2011.08.017 Zheng LJ, Wang CY, Yang LP Song YX, Fu LY (2012) Characteristics of chip formation in the micro-drilling of multi-material sheets. Int J Mach Tool Manu 52(1):40-49 

    상세보기

60. Adv Manuf Process S Sahoo 31 14 1927 2016 10.1080/10426914.2016.1140189 Sahoo S, Thakur A, Gangopadhyay S (2016) Application of analytical simulation on various characteristics of hole quality during micro-drilling of printed circuit board. Adv Manuf Process 31(14):1927-1934