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    王成勇 教授

    作者: 時間:2019-05-30 點擊數:

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    1.教育與研究經歷

    教育經歷

    • 1979-1983 南京工學院,機械制造工學學士;

    • 1983-1986 華僑大學188BET金宝搏亚洲体育,機械制造碩士;

    • 1986-1989 大連理工大學,機械制造博士;

    • 1995-1995 德國不倫瑞克大學IWF、漢堡工業大學AB5-12188BET金宝搏亚洲体育,高級訪問學者(留學基金委)188BET金宝搏亚洲体育;

    • 1995-1995 莫斯科工業大學,訪問學者188BET金宝搏亚洲体育;

    • 1999-2000 德國漢堡工業大學AB5-12,訪問教授(Gast Professor);

    • 2003-2003 澳大利亞昆士蘭理工大學,Visiting Fellow (QUT Visiting Fellow Scholarship)。

    工作經歷

    • 1989-1992 廣東工學院(現廣東工業大學),機械系,講師;

    • 1992-1996 廣東工學院(現廣東工業大學),機械系,副教授;

    • 1996-至今 廣東工學院(現廣東工業大學)188BET金宝搏亚洲体育,機械系,教授;

    • 1997-至今 廣東省機械制造及自動化省重點學科帶頭人;

    • 1997-2003 廣東工業大學科技處處長188BET金宝搏亚洲体育;

    • 2001-至今 廣東工學院(現廣東工業大學)188BET金宝搏亚洲体育,機械系,博士生導師188BET金宝搏亚洲体育;

    • 2003-至今 機械制造及自動化博士點負責人;

    • 2004-2008 廣東工業大學研究生處處長,研究生學院常務副院長;

    • 2006-2007 中組部團中央第七批博士服務團掛職桂林市,副市長;

    • 2008-2011 廣東工業大學,校長助理;

    • 2009-至今 211重點建設學科帶頭人;

    • 2011-至今 廣東工業大學,副校長。

    2.研究方向

    主要從事難加工材料的高速高效精密超精密加工理論、工藝、刀具與裝備技術研究。近年來的研究主要涉及模具與汽車零部件高速加工理論及CAD/CAM、高速加工涂層刀具制備188BET金宝搏亚洲体育;印制電路板機械加工理論188BET金宝搏亚洲体育、工藝、刀具與裝備;生物組織切除理論與醫療器械設計和制造;超硬材料及其工具制造和應用技術等領域。

    3.職務188BET金宝搏亚洲体育、兼職和榮譽稱號

    • 廣東工業大學副校長、教授、博導(廣西大學兼職教授);

    • 廣東省高?,F代加工技術與設計重點實驗室主任;

    • 國家醫療保健器具工程技術研究中心骨科手術器具及牙科設備制造聯合工程實驗室主任;

    • 廣東省廣東省微納加工技術與裝備重點實驗室學術帶頭人;

    • 廣東工業大學機械工程一級學科博士點廣東省重點學科“機械制造及自動化”負責人;

    • 廣東省機械工程學會副理事長188BET金宝搏亚洲体育,中國高?88BET金宝搏亚洲体育,F代制造技術研究會理事;

    • 廣東省生物醫學工程學會骨科臨床與材料專業委會副主委;

    • International Committee for Abrasive Technology創會會員;

    • 中國機械工程學會生產工程分會磨粒專業委員會188BET金宝搏亚洲体育、切削專業委員會和模具專業委員會委員;

    • 《中國機械工程》188BET金宝搏亚洲体育、《硬質合金》和《超硬材料工程》雜志編委;

    • 曾擔任ICFDM188BET金宝搏亚洲体育、ISSAT、IMCC等若干國內、國際會議學術委員會或組織委員會委員188BET金宝搏亚洲体育;

    • 多次擔任國際會議主席;國家自然科學基金重大、重點、杰出青年基金項目通訊評審專家。

    4.主持或參與的主要項目

    1. 非晶合金微創手術器械精密高效制造理論與工藝.國家自然科學基金重點支持項目. 2018.01-2022.12. 經費:300萬,項目負責人:王成勇188BET金宝搏亚洲体育;

    2. 精密醫療器械五軸聯動加工中心研制及產業化.廣東省應用型客機項目. 2018.1.1-2019.12.31. 經費:300萬,項目負責人:王成勇188BET金宝搏亚洲体育;

    3. 關節鏡微創手術器械關鍵制造技術研究及產業化.廣東省科技計劃項目.經費:50萬,2017.01-2018.12(合作申報,廣工30%)項目負責人:王成勇;

    4. 膝關節關節鏡清理術中生物組織的高效低損傷刨削切除研究,國家自然科學基金項目(51475094,研究經費:140.0萬,起止時間:2015.1 - 2018.12;

    5. 高速硬銑削加工多層多元納米復合涂層刀具及其切削性能研究,國家自然科學基金項目,研究經費:220.0萬元188BET金宝搏亚洲体育,起止時間:2013.01-2016.12188BET金宝搏亚洲体育;

    6. 復雜模具型面的非牛頓流體微磨料漿體射流低壓可控定量拋光,國家自然科學基金項(51075076)188BET金宝搏亚洲体育,研究經費:42萬,起止日期:2011-2013188BET金宝搏亚洲体育;

    7. 超高速鉆削多層密度印刷電路板超微細孔加工研究188BET金宝搏亚洲体育,國家自然科學基金-廣東聯合基金重點項目,研究經費:150萬,起止日期:2008-2011188BET金宝搏亚洲体育;

    8. 高速銑削淬硬鋼的多元納米復合涂層刀具研究,國家自然科學基金項目:(50775045),研究經費:32萬,起止日期:2008-2011188BET金宝搏亚洲体育;

    9. 三維精密微細結構微磨料氣射流加工理論研究188BET金宝搏亚洲体育,國家自然科學基金項目,研究經費:26萬,起止日期:2005-2007188BET金宝搏亚洲体育;

    10. 能耗動態監測平臺建設,建設部節能監管體系建設專項,研究經費:400萬,起止日期:2010-2012;

    11. 高強度鋼、淬硬鋼大型零件高效切削技術及應用,國家863計劃《高速188BET金宝搏亚洲体育、精密切削與磨削技術》重點項目188BET金宝搏亚洲体育,研究經費:14萬,起止日期:2009-2010;

    12. 碳纖維-鈦層間混雜復合材料孔加工刀具設計與制造技術,廣東省省部產學研合作專項資金項目(2010B090400346),研究經費:80萬,起止日期:2010-2013;

    13. 高精度圓光柵玻璃超精密研磨加工裝備與工藝188BET金宝搏亚洲体育,廣東高校產學研結合示范(創新培養)基地和科技成果轉化項目,研究經費:100萬,起止日期:2010-2012;

    14. 環保型高密度互連印刷電路板用精密微型刀具開發及產業化,廣東省省部產學研合作專項資金項目(項目(2008B090500130)188BET金宝搏亚洲体育,研究經費:40萬188BET金宝搏亚洲体育,起止日期:2009-2010;

    1. 獲獎情況

    1. 2014年 “難加工脆性碳素零部件的高速精密加工關鍵技術及應用”獲得廣東省科學技術一等獎(應用技術類)

    2. 2010年 廣東省“千百十”工程國家級培養對象;

    3. 2009年 獲第四屆廣東省高校教學名師獎;

    4. 2009年 “硬脆材料切削、磨削與拋光加工方面的研究”獲廣東省科技獎(自然科學類)二等獎

    5. 2006年 “注塑成型模具超精密加工關鍵技術研究”獲得廣東省科學技術二等獎(應用成果);

    6. 2001年 廣東省“千百十工程”先進個人優秀獎稱號188BET金宝搏亚洲体育;

    7. 1995年 《切削力學新編》獲國家教委科技進步三等獎188BET金宝搏亚洲体育;

    8. 1994年 南粵教壇新秀稱號。

    1. 近期主要論文、著作

    SCI雜志收錄論文74篇(主要論文):

    1. Feng D, Tang D, Wang C, et al. Microstructure of Hardened Steel at High Temperature and High Strain Rate[J]. Transactions of Nanjing University of Aeronautics & Astronautics, 2017, 34(4):380-387.

    2. Wang C, Lin H, Wang X, et al. Effect of different oil-on-water cooling conditions on tool wear in turning of compacted graphite cast iron[J]. Journal of Cleaner Production, 2017, 148:477-489.

    3. He H Y , Wang C Y188BET金宝搏亚洲体育,et al. Cutting mechanism during orthogonal cutting in a craniotomy[J]. Journal of Engineering in Medicine,2017.

    4. Yuan Y, Qin Z, Yu D H, et al. Relationship of microstructure, mechanical properties and hardened steel cutting performance of TiSiN-based nanocomposite coated tool[J]. Journal of Manufacturing Processes, 2017, 28.

    5. Zhang Y, Wang C, Zhou S, et al. A Comparison Review on Orthopedic Surgery Using Piezosurgery and Conventional Tools ☆[J]. Procedia Cirp, 2017, 65:99-104.

    6. Chen Z, Wang C, Jiang W, et al. A Review on Surgical Instruments of Knee Arthroscopic Debridement and Total Hip Arthroplasty ☆[J]. Procedia Cirp, 2017, 65:291-298.

    7. Yuan Z, Wang C, Chen K, et al. Amorphous Silicon Nanowires Grown on Silicon Oxide Film by Annealing:[J]. Nanoscale Research Letters, 2017, 12(1):487.

    8. Wang R J, Wang C Y, Wen W, et al. Experimental study on a micro-abrasive slurry jet for glass polishing[J]. International Journal of Advanced Manufacturing Technology, 2016:1-12.(SCI三區)

    9. Wu S, Zhao Z, Wang C Y, et al. Optimization of toolpath with circular cycle transition for sharp corners in pocket milling[J]. International Journal of Advanced Manufacturing Technology, 2016:1-11.(SCI三區)

    10. Wang C, Ding F, Tang D, et al. Modeling and simulation of the high-speed milling of hardened steel SKD11 (62 HRC) based on SHPB technology[J]. International Journal of Machine Tools & Manufacture, 2016, 108:13-26.(SCI二區)

    11. Wang H, Lin H, Wang C, et al. Laser drilling of structural ceramics—A review[J]. Journal of the European Ceramic Society.(SCI二區)

    12. Li S, Wang C, Zheng L, et al. Dynamic stability of cemented carbide circular saw blades for woodcutting[J]. Journal of Materials Processing Technology, 2016, 238:108-123.(SCI二區)

    13. Li S, Zheng L J, Wang C Y, et al. Micro drilling quality of the Cu/BT laminate for IC substrate[J]. Circuit World, 2016, 42(2):55-62.(SCI四區)

    14. Zheng L, Wang C, Zhang X, et al. The tool-wear characteristics of flexible printed circuit board micro-drilling and its influence on micro-hole quality[J]. Circuit World, 2016, 42(4).(SCI四區)

    15. Wu shixiong188BET金宝搏亚洲体育,MaWei, Li Bin, Wang chengyong. Trochoidal machining for the high-speed milling of pockets[J]. Journal of Materials Processing Technology, 2016, 233: 29-43.(SCI二區)

    16. Wu shixiong, Ma Wei, Bai haiping, Wang chengyong, and Song yuexian. Engagement Angle Modeling for Multiple-circle Continuous Machining and Its Application in the Pocket Machining[J]. Chinese Journal of Mechanical Engineering, 2016, 2016 錄用.(SCI四區)

    17. Liu, W., Li, A., Wu, H., He, R., Huang, J., & Wang C et al. (2016). Effects of bias voltage on microstructure, mechanical properties, and wear mechanism of novel quaternary (Ti, Al, Zr)n coating on the surface of silicon nitride ceramic cutting tool. Ceramics International, 42(15), 17693-17697.(SCI二區)

    18. Zhang, J., Long, Y., Liao, S., Lin, H. T., & Wang C. (2016). Effect of laser scanning speed on geometrical features of Nd:YAG laser machined holes in thin silicon nitride substrate. Ceramics International.(SCI二區)

    19. Liu, W., Li, A., Wu, H., Long, Y., Huang, J.,Wang C. & Deng, X., et al. (2016). Effects of gas pressure on microstructure and performance of (Ti, Al, Zr)n coatings produced by physical vapor deposition. Ceramics International, 42(15), 17436-17441.(SCI二區)

    20. Yu, D. H., Wang, H., Wang, C. Y., Yuan, Y. H., & Ding, F. (2016). Chip Formation of S790 Hardned Steel under High Speed Dry Milling Condition. Materials Science Forum (Vol.836-837, pp.77-87).(EI收錄)

    21. Huang X, Chen Z S, Wang C Y, et al. Measurement of Micro-Drill Breakage during PCB Drilling[J]. Materials Science Forum, 2016, 836-837(2):592-599(EI收錄).

    22. Xie Y X, Wang C Y, Ding F, et al. Parameters Optimization Research of High-Speed Milling PM60 Mould Steel Based on Taguchi Method[C]. Materials Science Forum. 2016.(EI收錄)

    23. Lin H, Wang C, Yuan Y, et al. Tool wear in Ti-6Al-4V alloy turning under oils on water cooling comparing with cryogenic air mixed with minimal quantity lubrication. International Journal of Advanced Manufacturing Technology, 2015, 81(1):1-15.

    24. Zhou, L., Wang C., Li, W., & Zhai, Y. (2016). Effect research of geometry parameter of micro endmill on high speed precision milling of brittle isotropic graphite part. Tool Engineering.

    25. Zheng L. The entry drilling process of flexible printed circuit board and its influence on hole quality. Circuit World, 2015, 41(4):147-153.

    26. ChengyongWang*, YingxingXie, LijuanZheng, ZheQin, DewenTang, YuexianSong. Research on the chip formation mechanism during the high-speed milling of hardened steel. International Journal of Machine Tools and Manufacture, 2014,79(4):31–48.

    27. Zheng L J, Wang C Y, Qu Y P, et al. Interaction of cemented carbide micro-drills and printed circuit boards during micro-drilling. International Journal of Advanced Manufacturing Technology, 2014, 77(5-8):1305-1314.

    28. Lin fang Wang, Li juan Zheng, Cheng yong Wang, Shan Li, Yue xian Song, Lun qiang Zhang, Peng Sun. Experimental study on micro-drills wear during high speed of drilling IC substrate. Circuit World, 2014, 40(2):61-70(10).

    29. Zheng L, Wang C, Yang L, et al. Characteristics of chip formation in the micro-drilling of multi-material sheets. International Journal of Machine Tools & Manufacture, 2012, 52(1):40–49.

    30. Zhou H, Wang C, Deng J, et al. Radial Grip Rigidity of the Matching of Lengthened Shrink-fit Holder and Cutter in High-speed Milling. Chinese Journal of Mechanical Engineering, 2012, 25(1):179-183.

    31. Zhang Q L, Wang C Y, Hu Y N, et al. Experimental Study on the Dynamic Characteristics of High Speed Milling on Inclined Planes. Advanced Materials Research, 2011, 188:99-103.

    32. Zhang F L, Yang Z F, Zhou Y M, et al. Fabrication of grinding tool material by the SHS of Ni–Al/diamond/dilute. International Journal of Refractory Metals & Hard Materials, 2011, 29(3):344–350.

    33. Fan J M, Li H Z, Wang J, et al. A study of the flow characteristics in micro-abrasive jets. Experimental Thermal & Fluid Science, 2011, 35(6):1097-1106.

    34. Zhou Y M, Zhang F L, Wang C Y. Effect of Ni–Al SHS reaction on diamond grit for fabrication of diamond tool material. International Journal of Refractory Metals & Hard Materials, 2010, 28(3):416-423.

    35. L. Zhou, C. Y. Wang, Z. Qin. Investigation of Chip Formation Characteristics in Orthogonal Cutting of Graphite. Materials & Manufacturing Processes, 2009, 24(12):1365-1372.

    36. Wang C Y, Zhou Y M, Zhang F L, et al. Interfacial microstructure and performance of brazed diamond grits with Ni–Cr–P alloy. Journal of Alloys & Compounds, 2009, 476(1):884-888.

    37. Yang Y X, Wang C Y, Zhe Q, et al. Drilling force and temperature of bone by surgical drill. Advanced Materials Research, 2010, 126-128:779-784.

    38. Yu D, Wang C, Cheng X, et al. Microstructure and properties of TiAlSiN coatings prepared by hybrid PVD technology. Thin Solid Films, 2009, 517(17):4950–4955.

    39. Zhou L, Wang C.Y. and Qin Z. Tool Wear characteristics in high speed milling of graphite using micro coated carbide endmill. Proceedings of the Institution of Mechanical Engineers, Part B. Journal of Engineering Manufacture, 2009, 223(2): 267-277.

    40. Yu D.H., Wang C.Y, Cheng X.L. and Song Y.X.. TiAlSiN coatings prepared by hybrid PVD technology for high speed milling of hardened steel. Advanced Materials Research, 2009, 69-70: 423-427.

    41. Tang D W, Wang C Y, Hu Y N, et al. Finite-Element Simulation of Conventional and High-Speed Peripheral Milling of Hardened Mold Steel. Metallurgical & Materials Transactions A, 2009, 40(13):3245-3257.

    42. Yu D, Wang C, Cheng X, et al. Optimization of hybrid PVD process of TiAlN coatings by Taguchi method. Applied Surface Science, 2008, 255(5):1865-1869.

    43. Zhang F.L., Zhu M. and Wang C.Y.Parameters optimization in the planetary ball milling of nanostructured tungsten carbide/cobalt powder. International Journal of Refractory Metals & Hard Materials, 2008, 26(4): 329-333.

    44. Zhou H, Wang C, Zhao Z. Dynamic characteristics of conjunction of lengthened shrink-fit holder and cutting tool in high-speed milling. Journal of Materials Processing Technology, 2008, 207(s 1–3):154-162.

    45. Yumei Zhou, Chengyong Wang, Fenglin Zhang, et al. Cr Powder-Activated Induction Brazing of Diamond Grits with Ag–Cu–Zn Alloy. Materials & Manufacturing Processes, 2008, 23(4):352-356.

    46. Zhao Z Y, Wang C Y, Zhou H M, et al. Pocketing toolpath optimization for sharp corners. Journal of Materials Processing Technology, 2007, 192:175-180.

    47. Wang Chengyong, Zhou Li, Fu Hao, Hu Zhouling. High speed milling of graphite electrode with endmill of small diameter. Chinese Journal of Mechanical Engineering, 2007, 20(4):27-31

    48. Zhang F L, Wang C Y, Chen Z N G J. Effect of Electrical Spark Discharging Parameters on the Etching of Chemical Vapor Deposition (CVD) Diamond Film. Materials & Manufacturing Processes, 2007, 22(22):859-864.

    49. Hu Z L, Wang C Y, Zhou L, et al. Cutting Parameters Optimization of High-Speed Milling of Thin-Walled Graphite Electrode. Key Engineering Materials, 2006, 315-316:319-323.

    50. Wang C Y, Chen C, Song Y X. Mechanochemical Polishing of Single Crystal Diamond with Mixture of Oxidizing Agents. Key Engineering Materials, 2006, 315-316:852-855.

    51. Hu Y N, Wang C Y, Ding H N, et al. Wear Mechanism of Diamond Saw Blades for Dry Cutting Concrete. Key Engineering Materials, 2006, 304-305:315-319.

    52. Wang C Y, Zhang F L, Kuang T C, et al. Chemical/mechanical polishing of diamond films assisted by molten mixture of LiNO3 and KNO3. Thin Solid Films, 2006, 496(2):698–702.

    53. Yuan H, Cheng Y P, Wang C Y, et al. Edge Grinding of Ceramic Tile by Diamond Cup Wheels. Key Engineering Materials, 2006, 304-305:85-89.

    54. Wang CY, Hu YN, Wang ZW, et al.Noise and vibration of diamond sawblade for concrete dry cutting. Key Engineering Materials,2006, 291-292: 103-108

    55. C. Y. Wang, X. Wei, H. Yuan. Polishing of ceramic tiles. Materials & Manufacturing Processes, 2006, 17(3):401-413.

    56. Zhang F L, Yuan H, Wang C Y, et al. Microstructure of Ni-Al-Diamond Composite Fabricated by Self-Propagating High Temperature Synthesis. Key Engineering Materials, 2005, 291-292(6):531-536.

    57. Wang C Y, Qin Z, Hu Y N, et al. High-Speed Milling Experiments on the Extended Length of Milling Tool. Key Engineering Materials, 2005, 291-292(6):439-442.

    58. Quan Y M, Wang C Y, He Z W. Experimental Investigation on the High-Speed Machining of Hardened Steel. Materials Science Forum, 2004, 471-472:339-343.

    59. Wang C Y, Hu Y N, Ding H N. Cutting Forces in Sawing Process of Reinforced Concrete. Materials Science Forum, 2004, 471-472:292-297.

    60. Hu YN, Wang CY, Wang JL, et al..Surface quality analysis of milling hardened die steel with micro-end mill.Materials Science Forum, 2004,471-472 : 374-379

    61. Wang C Y, Sun Y H, Qin Z, et al. Platen Belt Grinding of Brittle Materials. Key Engineering Materials, 2004, 257-258(6):129-134.

    62. Guo Z N, Huang Z G, Wang C Y. Smoothing CVD Diamond Films by Wire EDM with High Travelling Speed. Key Engineering Materials, 2004, 257-258:489-494.

    63. Hu Y N, Wang C Y, Ding H N. The Mechanical Performance of Diamond Saw Blades with Special Structure. Key Engineering Materials, 2004, 259-260:141-145.

    64. Zhou L, Wang C Y, Qin Z, et al. Wear Characteristics of Micro-End Mill in High-Speed Milling of Graphite Electrode. Key Engineering Materials, 2003, 259-260:858-863.

    65. Zhang F L, Wang C Y, Zhu M. Nanostructured WC/Co composite powder prepared by high energy ball milling. Scripta Materialia, 2003, 49(11):1123-1128.

    66. Wang C. How abrasive machining affects surface characteristics of vitreous ceramic tile. American Ceramic Society Bulletin, 2003:9201-9208.

    67. Wei X, Wang C Y, Zhou Z H. Study on the fuzzy ranking of granite sawability. Journal of Materials Processing Technology, 2003, 139(139):277-280.

    68. Wang C Y, Clausen R. Computer simulation of stone frame sawing process using diamond blades. International Journal of Machine Tools & Manufacture, 2003, 43(6):559-572.

    69. Wang C Y, Wei X, Pan Z C, et al. Effects of Surfactant in Stone Machining. Key Engineering Materials, 2003, 250(16):194-199.

    70. Hu Y N, Wang C Y, Wei X, et al. Thermodynamic Analysis of Diamond Saw Blades for Dry Cutting. Key Engineering Materials, 2003, 250(16):233-238.

    71. Wang C Y, Clausen R. Marble cutting with single point cutting tool and diamond segments. International Journal of Machine Tools & Manufacture, 2002, 42(42):1045-1054.

    72. Guo Z N, Wang C Y, Zhang F L, et al. Polishing of CVD Diamond Films. Key Engineering Materials, 2001, 202-203:165-170.

    73. Wang C Y, Clausen R. Stone Sawing Forces by Single Diamond Segment. Key Engineering Materials, 2001, 202-203:61-66.

    74. Qin Z X, Wang C Y, Zhang F L, et al. Properties of Granite Grinding Surface. Key Engineering Materials, 2001, 202-203:285-288.

    1. 專利

    發明專利15項:

    1. Al2O3 or Al2O3-contained multilayer coatings for silicon nitride cutting tools by physical vapor deposition and methods of making the same.S Wu, Y Long, Q Wang, C Wang - US Patent 9,290,847, 2016

    2. 一種吸音隔音復合材料的制備方法. 發明專利授權號:ZL 2012 1 0521776.9 發明人:張鳳林;林希寧;曹根;王成勇.

    3. 一種舒適高效的輻射板冷暖空調末端. 發明專利授權號:ZL 2011 1 0416696.2 發明人:胡映寧;林??;李彪;王成勇;劉亞招;熊理國

    4. 多晶硅鑄錠爐熱場結構. 發明專利授權號:ZL 2011 1 0122386.X 發明人:南志華;李文紅;朱佰喜188BET金宝搏亚洲体育;王成勇188BET金宝搏亚洲体育;翟雨佳.

    5. 腔式石墨舟. 發明專利授權號:ZL 2011 1 0082405.0 發明人:張志勇;李文紅188BET金宝搏亚洲体育188BET金宝搏亚洲体育;朱佰喜188BET金宝搏亚洲体育;王成勇188BET金宝搏亚洲体育;南志華.

    6. 一種納米復合鈦鉻硅氮化物刀具涂層及其制備方法. 發明專利授權號:ZL 2010 1 0176320.4 發明人:王成勇;成曉玲;余東海;張鳳林;匡同春.

    7. 一種納米復合鈦鋁硅氮化物刀具涂層及其制備方法. 發明專利授權號:ZL 2010 1 0176335.0 發明人:王成勇;成曉玲;余東海;張鳳林;匡同春. (已實施轉讓許可)

    8. 一種納米復合鈦鉻鋁硅氮化物刀具涂層及其制備方法. 發明專利授權號:ZL 2010 1 0176236.2 發明人:王成勇188BET金宝搏亚洲体育;成曉玲;余東海188BET金宝搏亚洲体育;張鳳林;匡同春.

    9. 一種利用花崗巖粉生產的低鈣硅酸鹽水泥及其制備方法. 發明專利授權號: ZL 2009 1 0038988.X 發明人:潘湛昌;徐慎穎;肖楚民188BET金宝搏亚洲体育;王成勇188BET金宝搏亚洲体育;魏志鋼188BET金宝搏亚洲体育;胡光輝.

    10. 一種用于微鉆的掃描電鏡檢測的固定裝置. 發明專利號:ZL 2009 1 0105380.4 發明人:楊凡;付連宇;王成勇.

    11. 利用花崗巖粉與堿性鋁渣生4A型沸石分子篩、石英砂的方法. 發明專利號:ZL 2009 1 0213996.3 發明人:潘湛昌188BET金宝搏亚洲体育;徐慎穎188BET金宝搏亚洲体育;肖楚民;王成勇188BET金宝搏亚洲体育;魏志鋼;胡光輝.

    12. 一種化學機械法金剛石膜拋光裝置及其拋光方法. 發明專利授權號:ZL 2005 1 0034023.5 發明人:王成勇;陳沖;秦哲188BET金宝搏亚洲体育;張鳳林. (已實施轉讓許可)

    13. 一種多功能組合機床. 發明專利授權號:ZL 2005 1 0034022.0 發明人:王成勇;練國林;鐘建新;袁慧188BET金宝搏亚洲体育;成云平. (已實施轉讓許可)

    14. 金剛石材料拋光方法. 發明專利授權號:ZL 2003 1 0111774.3 發明人:王成勇,張鳳林188BET金宝搏亚洲体育,陳春林,匡同春. (已實施轉讓許可)

    15. ?;u拋光砂輪的組成. 發明專利授權號:ZL 2003 1 0111771.X 發明人:王成勇;袁慧;魏昕188BET金宝搏亚洲体育;秦哲.

    16. 一種石材切割用冷卻潤滑液及制造方法. 發明專利授權號:ZL 99104907 發明人:王成勇188BET金宝搏亚洲体育;潘湛昌.

    實用新型專利21項(部分列表):

    1. 一種用于PCB鉆孔機的斷針檢測電路. 實用新型專利授權號:ZL 2015 2 0163955.9 發明人:王成勇;陳志順;王曉初.

    2. 一種柔性印刷電路板的微孔鉆削裝置. 實用新型專利授權號:ZL 2014 2 0864083.4 發明人:王成勇;鄭李娟;李姍;廖冰淼.

    3. 一種多層PCB微孔鉆削溫度測量裝置. 實用新型專利授權號:ZL 2014 2 0863942.8 發明人:王成勇;鄭李娟188BET金宝搏亚洲体育;李姍;廖冰淼.

    4. 一種多層PCB鉆孔鉆削溫度的測量裝置. 實用新型專利授權號:ZL 2014 2 0864060.3 發明人:王成勇;廖冰淼;鄭李娟188BET金宝搏亚洲体育;林淡填;黃欣

    5. 平面研磨機的下盤驅動結構. 實用新型專利授權號:ZL 2014 2 0138339.3 發明人:王成勇;鄭李娟188BET金宝搏亚洲体育;宋月賢;李勝藍;黎清??;王啟民.

    6. 高精密單面研磨機的上盤結構. 實用新型專利授權號:ZL 2014 2 0138338.9 發明人:王成勇 鄭李娟;宋月賢;李勝藍;黎清??;王啟民.

    7. 一種提高撓性印刷電路板鉆孔孔位精度的多層結構蓋板. 實用新型專利授權號:ZL 2014 2 0864076.4 發明人:王成勇;鄭李娟;李姍188BET金宝搏亚洲体育;廖冰淼;劉慶倫.

    外觀專利1項:

    [1] 轉速-線速度換算表188BET金宝搏亚洲体育,外觀專利授權號98334055.2 188BET金宝搏亚洲体育,發明人:王成勇; 肖洪; 魏昕.

    通信地址

    通信辦公地點:廣東工業大學工學二號館機電工程學院

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    188BET金宝搏亚洲体育