阎秋生
近期热点
资料介绍
个人简历
教育背景 1997.07-1999.11,日本东北大学工学部机械电子工学科研究员1984.09-1990.04,天津大学研究生院硕/博连读研究生,获工学博士学位1980.09-1984.07,天津大学机械工程系读本科 获工学学士学位工作经历 2002.09-now,广东工业大学机电工程学院教授、博士生导师1990.05-2002.08,汕头大学工学院讲师、副教授、教授主要荣誉 阎秋生、庄司克雄、田中宪司《金属结合包覆单列磨粒CBN砂轮端面磨削过程研究》获广东省机械工程学会2003-2008年度学会优秀论文二等奖学术活动 2009.02-now,广东省机械工程学会常务理事/机械设计与生产工程分会理事长2010.12-now,中国机械工程学会生产工程分会第十届委员会委员2010.12-now,中国机械工程学会生产工程分会光整加工专业委员会常务理事2010.12-now,广东省知识产权维权援助中心维权援助专家项目列表 [1]国家自然科学基金项目(No.50875050),2009.1—2011.12 . 可控磨料加工行为的集群磁流变效应研磨刷高效精密研抛研究. 2009.01. [2] 广东省自然科学基金项目(No.07001803),2007.10—2009.9 . 电磁流变效应微砂轮的三维微结构创成加工研究. 2007.10. [3] 广东省高等学校科技创新团队项目(06CXTD006),2007.9—2010.8. 先进加工技术的若干科学问题和关键技术研究. 2007.09. [4]高等学校博士点学科专项科研基金项目(No.20060562005),2007.1—2009.12 . 硬脆材料微小零件电/磁流变协同效应即效微型砂轮精细加工机理研究. 2007.01. [5]国家自然科学基金项目(No.50575045),2006.1—2008.12 . 微光学非球面电磁流变液即效亚毫米微磨头研抛加工研究. 2006.01. [6]广东省自然科学基金项目(No.04009490),2005.1—2006.12 . 微光学非球面的磁流变液超精密研抛加工机理研究. 2005.01. [7] 广东省自然科学基金项目(No.021253),2003.1—2004.12 . 微器件的电流变液辅助精细加工机理仿真及应用. 2003.01. 知识产权[1]授权发明专利. 基于磁流变效应的研磨抛光方法及其抛光装置(ZL200610132495.9). 2009.01 . 阎秋生[2] 授权实用新型专利. 磁流变效应平面研磨抛光装置(ZL200620155638.3) . 2008.01 . 阎秋生[3] 授权实用新型专利. 磁流变效应曲面研磨抛光装置(ZL200620155637.9) . 2008.01 . 阎秋生[4]授权实用新型专利. 基于磁流变技术的高效制动器(ZL200720058800.4). 2008.01 . 阎秋生[5] 授权发明专利. 一种轴对称回转曲面的精密加工装置及方法(No.200310117452.X). 2007.01 . 阎秋生[6]授权发明专利. 电流变效应研磨方法及其研磨装置(No.03140385.9) . 2007.01 . 阎秋生[7] 授权发明专利. 磨床砂轮修整器( ZL02152114.X). 2004.01 . 阎秋生[8] 授权实用新型专利. 电流变效应研磨装置(ZL03274129.4). 2004.01 . 阎秋生研究领域
机械制造及自动化""近期论文
2010[1] ZPYQL Jiabin . Influence of abrasive grains on the property and machining effect of magnetorheological fluid. Diamond & Abrasives Engineering, 2010[2] J Chai, Q Yan... . Research on abrasive semi-bond mechanism of MR effect-based tiny-grinding wheel. Zhongguo Jixie Gongcheng(China Mechanical ..., 2010[3] Q Yan, Y Song, W Gao... . Analysis on contact state of abrasive belt polishing process for engine valve surface. Zhongguo Jixie Gongcheng(China ..., 2010[4] SQFBY Pu... . Preparation and Characterization of Sericite/PMMA Composite with Core-shell Structure. Non-Metallic Mines, 20102009[5] Y YANG, Q YAN, J LU, Y LIU... . Research on Plane Polishing Using Instantaneous Tiny Grinding Wheel Based on Magnetorheological Effect. Machine Tool & Hydraulics, 2009[6] W GAO, L SHEN, Q YAN . The Study of New S-curve Ccelaration/Decelaration Arithmetic. Machine Tool & Hydraulics, 20092008[7] QIU Tengxiong, YAN Qiusheng... . Research on Surface Roughness Characteristics of Plastic Die Steel in Magnetic Abrasive Finishing [J]. ... Technology & Machine ..., 2008[8] W GAO, Q YAN . Design of Minimal System Board Based on DSP-TMS320C6713 [J]. Modern Electronics Technique, 2008[9] L Kong, Q Yan... . Study on precision grinding for revolving curved surface based on uniform surface roughness. Zhongguo Jixie Gongcheng, 20082007[10] Yan, Q.S.; Zhou, X.G.; He, B.Q.; Kong, L.Y.. A new grinding method for large-scale surface of revolution and error analyzing of its wheel dressing. Key Engineering Materials, v 329, 2007, p 111-116 (EI收录)[11] YJYQL Jiabin . Research on a new superfine machining method based on the magnetorheological fluids [J]. Diamond & Abrsives Engineering, 2007[12] F Qiusheng, Y Zhen... . Improvement of the treatment of fluoride-bearing acidic wastewater by neutralization-membrane filtration process. Industrial Water Treatment, 2007[13] Q Yan, J Feng, J Lu, W Gao . Influences of wear resistance of tool electrode and different electrorheological fluids on the electrorheological effect of abrasive slurry. Zhongguo ..., 20072005[14] Yan, Q.S.;Kong, L.Y.; Wu, N.Q.; Chen, S.B.; Zhang, Z.Q.; Zheng, Z.D.. Development of new device for form-grinding and research on the profileaccuracy. KeyEngineeringMaterials, v 291-292, 2005, p 3-8(EI收录)[15] BFY Qiusheng . Analysis of Electro-rheological Fluid and Development of Micro-tool for Micro-parts Machining. Diamond & Abrasives Engineering, 20052004[16] Yan, Q.S.; Zhang, Z.Q.. Present Situation and Developing Trend of Abrasive Air Jet Micromachining. Key Engineering Materials, v 258-259, 2004, p 648-652 (EI收录、SCI收录)[17] Yan, Q.S., Zhang, Z.Q.,. A Study on the CBN Grit Damage of a Newly Developed CBN Cup Quill in Face Grinding. Key Engineering Materials, v 257-258, 2004, p 279-284 (EI收录、SCI收录)[18] ZZYANQZ Zhidan... . APPROXIMATE DOUBLE CIRCULAR ARC INTERPOLATED METHOD ON SMOOTHING THE SECTION CURVE OF FORM WHEEL AND ITS ERROR ESTIMATE [J]. Diamond & Abrasives Engineering, 2004[19] ZZYQC Shaobo . Dresser Structure to Simplify NC Programming [J]. Tool Engineering, 2004[20] Z ZHANG, Q YAN, S CHEN... . NC Dresser on Which the Dressing Tool Can Turn Around the Arc Center [J]. ... Technology & Machine ..., 2004[21] ZZYANQC Shaobo... . A NC dresser with parallel circumrotating axis and moving axes. Modular Machine Tool & Automatic ..., 20042003[22] Yan QS, Zhang ZQ, Syoji K. Machining precision in the face grinding of a groove bottom using a cup CBN quill. Journal of Materials Processing Technology. 138:527-530, Sp. Iss. SI JUL 20 2003 (SCI收录,收录号为:IDS Number: 717HE;EI 收录,收录号EI Number:EIP03287537990) 2002[23] Yan, Qiusheng; Zhang, Ziqiang. CBN quill grinding for 2-dimensional curved surface. Key Engineering Materials v 233-236 n II 2002. p 509-514(EI收录,收录号 EI Number:EIP03047329304) [24] Yan, Qiusheng; Zhang, Ziqiang. Analysis of machining precision of face grinding groove bottom with cup CBN quill . Jingangshi yu Moliao Moju Gongcheng/Diamond & Abrasives Engineering 2002 n 1 p 19 (EI 收录,收录号Accession number: 02407124049) 2001[25] Yan QS, Zhang ZQ, Syoji K. Study on Performance of CBN Cup Quill for Face Grinding. Advances in Abrasive Processes: Key Engineering Materials. 202-2: 79-84 2001(SCI收录,收录号为:IDS Number:BS53W;EI 收录,收录号EI Number:EIP01336614665)2000[26] Yan, Qiusheng; Tanaka, K.; Syoji. Studies on the grinding properties of CBN quill. Jixie Gongcheng Xuebao/Chinese Journal of Mechanical Engineering v 36 n 5 May 2000. p 103-106(EI收录,收录号 EI Number:EIP EIP00095342280)[27] YAN Qiusheng . Influence of Grain Size and Coolant Supplying on Face Grinding with Plated CBN Wheel [J]. MANUFACTURING TECHNOLOGY & ..., 2000[28] YAN Qiusheng... . Face Grinding of Groove Bottom with Electroplated Ring CBN Small Diameter Quill. CHINA MECHANICAL ..., 20001994[29] Y Qiusheng . A study on machineablity of sintered graphite material. JOURNAL OF SHANTOU UNIVERSITY (NATURAL ..., 1994 相关热点