潘继生

作者: 时间:2022-06-28 点击数:

潘继生   个人简历

广东工业大学机电工程学院

电子邮箱:panjisheng@gdut.edu.cn

办公地址:广东工业大学工学二号馆609

 

形象照2020

 

简介

广东工业大学机电工程学院教授、博导,《机械设计》国家级一流本科课程负责人,机电工程学院学术委员会委员,机电工程学院教学指导委员会委员,“半导体超精密加工研究团队”院级团队负责人,制造工程系副主任,广东工业大学“十佳授课教师”,国家专利银奖获得者,中国高贡献学者、广东省优粤人才A卡获得者。2007年于重庆大学机械传动国家重点实验室获工学硕士学位,2015年于广东工业大学获工学博士学位,2016年澳大利亚访问学者。主要从事精密超精密加工理论与技术、光电晶片平坦化加工工艺、磁流变抛光技术、智能材料开发与应用方面的研究工作。

作为项目负责人主持国家重点研发计划项目1项、国家自然科学基金项目2项(青年项目和面上项目各1项)、广东省重点领域研发计划“芯片设计与制造”战略专项1项(课题负责人)、广东省自然科学基金面上项目2项、广东省科技计划项目和企业产学研项目近10项。作为核心成员参与国家重点研发计划项目1项、NSFC-广东联合基金项目2项、国家自然科学基金面上项目5项,作为核心成员参与了佛山市创新团队项目和广州市增城区创新创业领军团队项目的产业孵化与创业。近五年,在《Int   J Adv Manuf Technol》、《Smart Mater. Struct.》、《Wear》和《Tribol.   Int.》等国际顶级期刊发表SCI收录论文43篇,他引312次,h指数17,在国际会议上做邀请报告5次。申请中国发明专利84件(授权55件)、美国发明专利2件、PCT专利8件,其中8件专利实施许可转让取得较好经济效益。担任广东省机械工程学会机械设计与生产工程分会秘书长和《金刚石与磨料磨具工程》杂志编辑委员等学术职务。曾获教育部高等学校科学技术奖(技术发明奖)一等奖(5/8)、广东省专利金奖(2/4)、中国专利优秀奖(2/4)、粤港澳大湾区高价值专利培育专利布局大赛“最具投资潜力奖”(1/6)、广东省科学技术奖技术发明奖二等奖(6/10)、广东省专利金奖(1/4)和中国专利银奖(1/4)、首届“科德杯”中国机械行业产教融合教育教学创新大赛一等奖(2/10)等奖励,被全国第三方大学评价研究机构艾瑞深校友会网评选为2023中国高贡献学者,作为团队成员荣获2023年度“广东青年五四奖章集体”。

教育背景

Ø  2009.92015.6,广东工业大学,机械制造及自动化专业,获工学博士学位

Ø    2004.92007.6,重庆大学机械传动国家重点实验室,机械制造及自动化专业,获工学硕士学位

Ø  2010.92004.6,重庆大学,机械设计制造及其自动化专业,获工学学士学位

工作经历

Ø    2007.7-至今,广东工业大学机电工程学院,助教、讲师、副教授、教授

Ø  2016.32017.3University   of Wollongong, Australia, 访问学者

学术兼职

Ø  广东省机械工程学会机械设计与生产工程分会秘书长;

Ø  中国机械工程学会生产工程分会高性能传动与智能装备专业委员会委员;

Ø  《金刚石与磨料磨具工程》杂志编辑委员;

Ø  International   Journal of Machine Tools and ManufactureSmart Materials and   StructuresPart   E Journal of Process Mechanical EngineeringApplied Physics AJournal   of Testing and EvaluationJournal of Micromechanics and   Microengineering、机械工程学报、表面工程等期刊的审稿人。

主要荣誉

Ø    赵荣丽、潘继生、刘强等.学用同频的《机械设计》产教融合创新教学模式.首届“科德杯”中国机械行业产教融合教育教学创新大赛一等奖.2024

Ø    潘继生.   国家级一流本科课程:《机械设计》线上线下混合式一流课程,2023

Ø    潘继生、阎秋生、高伟强、于鹏.   磁流变柔性抛光垫的动态磁场自锐抛光装置及其抛光方法.   第二十三届中国专利奖银奖.   20225

Ø    潘继生、阎秋生、高伟强、于鹏.   磁流变柔性抛光垫的动态磁场自锐抛光装置及其抛光方法.   第八届广东省专利金奖.   202111

Ø    阎秋生,李忠荣,黄健明,路家斌,谢昭派,潘继生,黄超明,朱奕玮,高伟强,罗伟坚.   高端金属板带精密高效剪切加工关键技术及装备.   2020年度广东省科学技术奖技术发明二等奖.   20213

Ø    潘继生.   2021全国高校混合式教学设计创新大赛.   优胜奖.   202112

Ø    潘继生、阎秋生、张棋翔、陈志君、路家斌、高伟强.   光电晶片集群磁流变超光滑平坦化加工技术.   2020年粤港澳大湾区高价值专利培育专利布局大赛“最具投资潜力奖”.   2020

Ø    潘继生.   广东省一流本科课程:《机械设计》线上线下混合式一流课程,2020

Ø    潘继生.   广东工业大学第八届青年教师教学竞赛“十佳授课教师”.   2019

Ø    潘继生.   广东工业大学教学优秀奖一等奖.   2019年、2021

Ø    潘继生.   广东工业大学优秀博士论文奖.   2016

Ø    阎秋生;潘继生;黄升伟;李忠荣.   一种金属带材无毛刺分切加工装置及其加工方法.   第十五届中国专利奖优秀奖.   2013

Ø    阎秋生;潘继生;黄升伟;李忠荣.   一种金属带材无毛刺分切加工装置及其加工方法.   广东专利奖金奖.   2013

Ø    潘继生.   广东工业大学先进科技工作者.   2013

Ø    潘继生.   广东工业大学优秀班主任.   2012

Ø    阎秋生、路家斌、潘继生、高伟强.   中国机械工程学会学会工作成果奖.   2011

Ø    潘继生.   重庆大学优秀硕士论文奖.   2008

Ø    潘继生.   重庆市普通高校科技学术创新先进个人.   2007

Ø  梁锡昌;王家序;陈小安;王光建;潘继生;杨为.   基于逆滚动螺旋副的高效精密传动机构.   教育部技术发明奖一等奖.   2006

科研项目

(1) 国家重点研发计划项目,大尺寸碳化硅单晶激光高效切割和剥离关键技术研究及产业化应用,2025.1.1-2027.12.30622.5万,在研,项目负责人;

(2) 广东省重点领域研发计划“芯片设计与制造”战略专项,SiC晶锭低损耗高效率激光剥片技术及装备研发,2023.12.1-2027.11.30560/13400万元,在研,课题负责人;

(3) 国家自然科学基金委员会,面上项目“氮化镓晶片空间动态磁场磁流变电芬顿复合抛光研究”,2021.12024.1258万元,在研,主持;

(4) 广东省基础与应用基础研究基金委员会,广东省自然科学基金-面上项目“单晶SiC晶片动态磁场磁流变电化学复合抛光基础研究”,2023.12025.1210万元,在研,主持;

(5) 广东省基础与应用基础研究基金委员会,广东省自然科学基金-面上项目“单晶GaN超光滑表面磁流变电芬顿复合抛光机理研”,2019.102021.910万元,在研,主持;

(6) 企业横向合作项目,超纯工业气体系统装置与控制技术的研究与开发,2023.2-2025.230万元,在研,主持

(7) 企业横向合作项目,PCB板短路缺陷修检复检高清耦合一体方法及装备的研究与开发,2024.1-2025.120万,在研,主持

(8) 国防科技大学委托项目“单晶4H-SiC抛光片加工与测试”,2021.6-2021.915万,在研,主持;

(9) 广东纳诺格莱科技有限公司“磨抛丸片损耗试验机及磁流变抛光机床开发”,2020.42021.430万元,在研,主持;

(10) 国家自然科学基金委员会, NSFC-广东联合基金项目“多场耦合控制磨料状态的新一代光电晶片超光滑平坦化加工理论与关键技术研究”,2019.12022.12255万,在研,参与(排名第3)。

(11) 广东省知识产权局,广东省高质量专利培育项目“广东省金属薄板节材精密分切技术工程技术中心”,2019-04   2019-1230万元,已结题,参与(排名第3)。

(12) 国家自然科学基金委员会,青年科学基金“基于磁流变效应柔性夹持超薄钛酸锶电子陶瓷基片精密磨粒加工研究”   2013.012015.1226万,已结题,主持;

(13) 广东省科学技术厅,广东省科技计划项目“动态磁场自锐的磁流变效应柔性垫高效超精密抛光关键技术研究”,2016.012018.1230万,已结题,主持;

(14) 广东省科学技术厅,广东省重大科技专项,电工硅钢板材精密剪切加工技术研究及装备研发,2016.01-2018.12100万元,在研,参加

(15) 广东省省部产学研结合项目 “食品塑料软包装绿色印刷关键技术的集成创新”, 2012.022014.1230万,已结题,学校主持;

(16) 国家自然科学基金委员会,NSFC-广东联合基金项目“单晶SiC基片高效超精密磨粒加工技术基础研究”   2010.12014.12190万,已结题,参与;

(17) 国家自然科学基金委员会,面上项目,50875050,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,2009.01-2011.1236万元,已结题,参加。

主要论文

(1) ZHENG Q, WU Y, PAN J, et al. Investigation   of cluster magnetorheological electro-Fenton composite polishing process for   single-crystal GaN wafer based on BBD experimental method [J]. Smart   Materials and Structures, 2024, 33(3).

(2) YAN Q, WANG T, HUANG Z, et al. Simulation   and Experimental Study on Optical Surface Wide Ribbon Wheel   Magnetorheological Polishing of Sapphire [J]. Surface Technology, 2024,   53(4): 140-51.

(3) XIA J, YAN Q, PAN J, et al. Mechanism   analysis and process optimization of nanogrinding single-crystal SiC [J].   Materials Science in Semiconductor Processing, 2024, 175.

(4) WANG T, YAN Q, XIONG Q, et al. Effect of   abrasive on tribological behavior and polishing effect of β-Ga<inf>2</inf>O<inf>3</inf>(100)   substrate [J]. Materials Science in Semiconductor Processing, 2024, 172.

(5) WANG T, YAN Q, XIONG Q, et al. Effect of   abrasive on tribological behavior and polishing effect of β-Ga<sub>2</sub>O<sub>3</sub>(100)   substrate [J]. Materials Science in Semiconductor Processing, 2024, 172.

(6) WANG T, XIONG Q, YAN Q, et al. Effects of   polishing disc material and substrate surface temperature on the tribological   behaviors and machining results of β-Ga<inf>2</inf>O<inf>3</inf>(100)   [J]. International Journal of Advanced Manufacturing Technology, 2024,   134(1-2): 765-80.

(7) WANG T, XIONG Q, YAN Q, et al. Effects of   polishing disc material and substrate surface temperature on the tribological   behaviors and machining results of <i>β</i>-Ga<sub>2</sub>O<sub>3</sub>(100)   [J]. International Journal of Advanced Manufacturing Technology, 2024,   134(1-2): 765-80.

(8) RAN B, PAN J, YAN Q, et al.   Chemical-mechanical synergetic effect of single crystal SiC polishing using   Fe<inf>3</inf>O<inf>4</inf>@MIL-100(Fe) magnetic   photo-Fenton catalyst [J]. Diamond and Related Materials, 2024, 149.

(9) RAN B, PAN J, YAN Q, et al.   Chemical-mechanical synergetic effect of single crystal SiC polishing using   Fe<sub>3</sub>O<sub>4</sub>@MIL-100(Fe) magnetic   photo-Fenton catalyst [J]. Diamond and Related Materials, 2024, 149.

(10) OU Y, WANG H, WU Y, et al. New   skin corrosion effect of magnetorheological electro-Fenton polishing   investigated by friction and wear experiments [J]. Materials Science in   Semiconductor Processing, 2024, 184: 108759.

(11) OU Y, WANG H, WU Y, et al. New   skin corrosion effect of magnetorheological electro-Fenton polishing   investigated by friction and wear experiments [J]. Materials Science in   Semiconductor Processing, 2024, 184.

(12) HUANG Z, YAN Q, PAN J, et al.   Dynamic magnetic field magnetorheological finishing with constant load and   variable gap [J]. Precision Engineering, 2024, 86: 388-99.

(13) HUANG Z, YAN Q, PAN J, et al.   Dynamic magnetic field magnetorheological finishing with constant load and   variable gap [J]. Precision Engineering-Journal of the International   Societies for Precision Engineering and Nanotechnology, 2024, 86: 388-99.

(14) HE B, YAN Z, LIU T, et al.   Preparation and characterization of highly catalytic and corrosion resistant   Fe-Ti-O magnetorheological composite powders [J]. Journal of Materials   Research and Technology-Jmr&T, 2024, 32: 2063-75.

(15) CHEN Z, YAN Q, PAN J, et al.   Mechanism and experimental study of photoelectro-Fenton composite   magnetorheological polishing [J]. Ceramics International, 2024, 50(21):   41962-9.

(16) CHEN Z, YAN Q, PAN J, et al.   Magnetization and self-sharpening mechanism of polymerized diamond abrasive   based on magnetorheological polishing technology [J]. Diamond and Related   Materials, 2024, 141.

(17) CHEN Z, PAN J, YAN Q, et al.   The processing properties of photocatalysis assisted magnetorheological   polishing based on TiO<inf>2</inf>CI   composite particles [J]. Materials Science in Semiconductor Processing, 2024,   172.

(18) CHEN Z, PAN J, YAN Q, et al.   The processing properties of photocatalysis assisted magnetorheological   polishing based on TiO2-CI composite particles [J]. Materials Science in   Semiconductor Processing, 2024, 172.

(19) ZHENG Q, PAN J, ZHOU R, et al.   Mechanism of Electrochemically Assisted Friction and Wear Behavior of GaN in   KMnO<inf>4</inf> Slurry [J]. ECS Journal of Solid State Science   and Technology, 2023, 12(7).

(20) ZHENG Q, PAN J, ZHOU R, et al.   Mechanism of Electrochemically Assisted Friction and Wear Behavior of GaN in   KMnO<sub>4</sub> Slurry [J]. Ecs Journal of Solid State Science   and Technology, 2023, 12(7).

(21) ZHANG Q, PAN J, ZHUO Z, et al.   Abrasion behavior of TiO2 catalyzing H2O2 to synergistically remove single   crystal 6H-SiC under ultraviolet irradiation [J]. Surfaces and Interfaces,   2023, 38.

(22) YAN J, PAN J, YAN Q, et al.   Controllable electrochemical-magnetorheological finishing of single-crystal   gallium nitride wafers [J]. Journal of Solid State Electrochemistry, 2023,   27(3): 597-610.

(23) XIONG Q, LUO Z, YAN Q, et al.   Influences of process parameters on chemical mechanical polishing effect of   ZnGeP<inf>2</inf> crystal [J]. Materials Science in Semiconductor   Processing, 2023, 162.

(24) XIONG Q, LUO Z, YAN Q, et al.   Influences of process parameters on chemical mechanical polishing effect of   ZnGeP2 crystal [J]. Materials Science in Semiconductor Processing, 2023, 162.

(25) WU Y, PAN J, WANG H, et al.   Study of corrosion rate control mechanism based on magnetorheological   electro-Fenton composite polishing of single-crystal GaN wafers [J]. Journal   of Solid State Electrochemistry, 2023, 27(8): 2163-76.

(26) SHEN Z, PAN J, ZHANG J, et al.   Preparation and processing performance of high steady-state   magnetorheological finishing fluid [J]. Smart Materials and Structures, 2023,   32(3).

(27) PAN J, WU Y, ZHUO Z, et al.   Experimental study of single-crystal GaN wafer electro-Fenton   magnetorheological complex friction wear [J]. Tribology International, 2023,   180.

(28) WU Y, PAN J, WANG H, et al.   Corrosion Rate Control Mechanism of Single-Crystal Gan Wafers in a   Magnetorheological Electro-Fenton Environment [Z]. SSRN.   2022.10.2139/ssrn.4254720

(29) PAN J, ZHUO Z, ZHANG Q, et al.   Friction and wear mechanisms for single crystal GaN based on an   electro-Fenton enhanced chemical reaction [J]. Wear, 2022, 498.

(30) LUO B, YAN Q, PAN J, et al.   Simulation and experimental research on magnetorheological finishing under   dynamic pressure with a gap-varying [J]. Journal of Manufacturing Processes,   2022, 82: 265-76.

(31) LUO B, YAN Q, CHAI J, et al.   An ultra-smooth planarization method for controlling fluid behavior in   cluster magnetorheological finishing based on computational fluid dynamics   [J]. Precision Engineering, 2022, 74: 358-68.

(32) LUO B, YAN Q, CHAI J, et al.   Theoretical and experimental research into a novel method of cluster   magnetorheological finishing based on a circular array polishing disk [J].   International Journal of Advanced Manufacturing Technology, 2022, 121(9-10):   6535-50.

(33) LUO B, YAN Q, CHAI J, et al.   An ultra-smooth planarization method for controlling fluid behavior in   cluster magnetorheological finishing based on computational fluid dynamics   [J]. Precision Engineering-Journal of the International Societies for   Precision Engineering and Nanotechnology, 2022, 74: 358-68.

(34) HUANG Z, PAN J, LUO B, et al.   Basic exploration and research on magnetoelectric synergistic rheological   finishing [J]. Journal of Intelligent Material Systems and Structures, 2022,   33(19): 2492-504.

(35) DENG J, LU J, ZENG S, et al.   Preparation and processing properties of magnetically controlled abrasive   solidification orientation-solid-phase Fenton reaction lapping-polishing   plate for single-crystal 4H-SiC [J]. Surfaces and Interfaces, 2022, 29.

(36) CHEN Z, PAN J, YAN Q, et al.   Study on the rheological and polishing properties of electromagnetic   two-phase composite particles with abrasive characteristics [J]. Smart   Materials and Structures, 2022, 31(4).

(37)  Qixiang Zhang, Jisheng   Pan*, Xiaowei Zhang, Jiabin Lu, Qiusheng Yan. Tribological behavior of 6H–SiC   wafers in different chemical mechanical polishing slurries. Wear[J].  2021,   472-473(15) , 203649

(38)  Qiang Xiong, Jiabin Lu,   Qiusheng Yan and Jisheng Pan. "Edge Burr Development When Using a   Cemented Carbide Micro-Drill: Formation and Control Mechanisms."   Precision Engineering 72,  (2021): 192-204.

(39) Bin Luo, Qiusheng Yan, Jisheng   Pan, Jiabin Lu and Zhanliang Huang. "Influences of Processing Parameters   on Metal-Bonded Diamond Wheel Wear When Grinding a Sapphire Wafer."   Diamond and Related Materials 113,  (2021): 108275.

(40) Bin Luo, Qiusheng Yan,   Zhanliang Huang, Jisheng Pan and Youzhi Fu. "Machining Method for   Controlling the Behaviours of Bingham Fluids in Cluster Magnetorheological   Polishing Pads." Smart Materials and Structures 30, no. 2 (2021).

(41) Jiayun Deng, Qixiang Zhang,   Jiabin Lu, Qiusheng Yan, Jisheng Pan and Run Chen. "Prediction of the   Surface Roughness and Material Removal Rate in Chemical Mechanical Polishing   of Single-Crystal Sic Via a Back-Propagation Neural Network." Precision   Engineering 72,  (2021): 102-110.

(42) Jiayun Deng, Qiusheng Yan,   Jiabin Lu, Qiang Xiong and Jisheng Pan. "Optimisation of Lapping Process   Parameters for Single-Crystal 4hSic Using Orthogonal   Experiments and Grey Relational Analysis." Micromachines 12, no. 8   (2021): 910.

(43) ,Jiayun Deng, Jiabin Lu,   Qiusheng Yan and Jisheng Pan. "Enhancement Mechanism of Chemical   Mechanical Polishing for Single-Crystal 6h-Sic Based on Electro-Fenton   Reaction." Diamond and Related Materials 111,  (2021): 108147.

(44) Jiayun Deng, Jiabin Lu,   Qiusheng Yan and Jisheng Pan. "Basic Research on Chemical Mechanical   Polishing of Single-Crystal SicElectroFenton:   Reaction Mechanism and Modelling of Hydroxyl Radical Generation Using   Condition Response Modelling." Journal of Environmental Chemical   Engineering 9, no. 2 (2021): 104954.

(45) 阎秋生,赵言,梁智镔,陈家学,潘继生*. 医用钛合金动态磁场集群磁流变抛光加工研究.   表面技术.2021,   50(9):12.

(46) 邓家云, 潘继生, 张棋翔,   郭晓辉   and 阎秋生.   "单晶sic基片的化学机械抛光技术研究进展."   金刚石与磨料磨具工程   40, no. 01 (2020): 79-91.

(47) 邓家云, 潘继生 and 阎秋生.   "单晶sic化学机械抛光基础研究——电芬顿反应条件优化及6h-Sic氧化效果分析."   表面技术   49, no. 04 (2020): 64-73.

(48) Jisheng Pan*, Kun Zheng,   Qiusheng Yan, Qixiang Zhang and Jiabin Lu. "Optimization Study on   Magnetorheological Fluid Components and Process Parameters of Cluster   Magnetorheological Finishing with Dynamic Magnetic Field for Sapphire   Substrates." Smart Materials and Structures 29, no. 11 (2020).

(49) Jisheng Pan*, Zhijun Chen and   Qiusheng Yan. "Study on the Rheological Properties and Polishing   Properties of Sio2@Ci Composite Particle for Sapphire Wafer." Smart   Materials and Structures 29, no. 11 (2020).

(50) Bin Luo, Qiusheng Yan, Jisheng   Pan* and Mingliang Guo. "Uniformity of Cluster Magnetorheological   Finishing with Dynamic Magnetic Fields Formed by Multi-Magnetic Rotating   Poles Based on the Cluster Principle." International Journal of Advanced   Manufacturing Technology 107, no. 1-2 (2020): 919-934.

(51) Jiayun Deng, Jisheng Pan*,   Qixiang Zhang, Qiusheng Yan and Jiabin Lu. "The Mechanism of Fenton   Reaction of Hydrogen Peroxide with Single Crystal 6h-Sic Substrate."   Surfaces and Interfaces 21,  (2020).

(52) Jiayun Deng, Jiabin Lu,   Qiusheng Yan, Qixiang Zhang and Jisheng Pan. "Preparation and Polishing   Properties of Water-Based Magnetorheological Chemical Finishing Fluid with   High Catalytic Activity for Single-Crystal Sic." Journal of Intelligent   Material Systems and Structures 32, no. 13 (2020): 1441-1451.

(53) 阎秋生, 李基松 and 潘继生.   "熔融石英玻璃衬底的平面研磨加工实验研究."   金刚石与磨料磨具工程   39, no. 01 (2019): 60-65.

(54) 肖晓兰, 阎秋生, 潘继生   and 焦竞豪.   "陶瓷球高效超光滑磁流变柔性抛光新工艺研究."   表面技术   48, no. 02 (2019): 268-274.

(55) 潘继生, 郑坤, 廖博涛   and 阎秋生.   "蓝宝石基片的单面研磨工艺研究."   现代制造工程,   no. 06 (2019): 89-95.

(56) 潘继生, 邓家云, 张棋翔   and 阎秋生.   "羟基自由基高级氧化技术应用进展综述."   广东工业大学学报   36, no. 02 (2019): 70-77+85.

(57) Jisheng Pan, Qiusheng Yan,   Weihua Li and Xiaowei Zhang. "A Nanomechanical Analysis of Deformation   Characteristics of 6h-Sic Using an Indenter and Abrasives in Different Fixed   Methods." Micromachines 10, no. 5 (2019).

(58) Jisheng Pan, Mingliang Guo,   Qiusheng Yan, Kun Zheng and Xiaolan Xiao. "Research   on Material Removal Model and Processing Parameters of Cluster   Magnetorheological Finishing with Dynamic Magnetic Fields."   International Journal of Advanced Manufacturing Technology 100, no. 9-12   (2019): 2283-2297.

(59) Huazhuo Liang, Qiusheng Yan,   Jisheng Pan*, Bin Luo, Jiabin Lu and Xiaowei Zhang. "Characteristics of   Forces in Plane Polishing Based on the Magnetorheological Effect with Dynamic   Magnetic Fields Formed by Rotating Magnetic Poles." Journal of Testing   and Evaluation 49, no. 1 (2019): 255-269.

(60) Luo Bin, Yan Qiusheng, Pan   Jisheng*, Lu Jiabin and Hong Zhiqing. "A Study of Methods for the   Magnetorheological Finishing of Glass Panels for the Inner Screen of Mobile   Phones." International Journal of Abrasive Technology 9, no. 3 (2019):   235-55.

(61) 潘继生, 于鹏 and 阎秋生.   "动磁场磁流变效应抛光垫抛光力特性试验研究." 机械工程学报   54, no. 06 (2018): 10-17.

(62) 郭明亮, 阎秋生, 潘继生   and 肖晓兰.   "动态磁场集群磁流变抛光加工机理及试验研究."   金刚石与磨料磨具工程   38, no. 01 (2018): 89-93+97.

(63) 董敏, 路家斌, 潘继生   and 阎秋生.   "磁流变微结构动压平面抛光试验研究."   金刚石与磨料磨具工程   38, no. 01 (2018): 82-88.

(64) Jisheng Pan, Peng Yu and   Qiusheng Yan. "Experimental Investigations on the Polishing Forces   Characteristics of Dynamic Magnetic Field Magnetorheological Effect Polishing   Pad." Journal of Mechanical Engineering 54, no. 6 (2018): 10-17.

(65) Huazhuo Liang, Jiabin Lu*,   Jisheng Pan* and Qiusheng Yan. "Material Removal Process of   Single-Crystal Sic in Chemical-Magnetorheological Compound Finishing."   International Journal of Advanced Manufacturing Technology 94, no. 5-8   (2018): 2939-2948.

(66) 徐少平, 路家斌, 阎秋生,   宋涛   and 潘继生.   "单晶sic化学机械抛光液的固相催化剂研究."   机械工程学报   53, no. 21 (2017): 167-173.

(67) 王超超, 张凤林, 李伟雄,   毛俊波,   陈家泓   and 潘继生.   "空心玻璃微珠对陶瓷结合剂金刚石砂轮微观结构和力学性能的影响."   工具技术   51, no. 10 (2017): 36-39.

(68) Qiusheng Yan, Xiaobei Cao and   Jisheng Pan*. "Experimental Investigations on Super-Smooth Polishing of   Strontium Titanate Based Ceramics Substrates." International Journal of   Abrasive Technology 8, no. 1 (2017): 1-24.

(69) Jisheng Pan, Xiaowei Zhang,   Qiusheng Yan and Shenkai Chen. "Experimental Study   of Surface Performance of Monocrystalline 6h-Sic Substrates in Plane Grinding   with a Metal-Bonded Diamond Wheel." International Journal of   Advanced Manufacturing Technology 89, no. 1-4 (2017): 619-627.

(70) Jisheng Pan, Peng Yu, Qiusheng   Yan and Weihua Li. "An Experimental Analysis of Strontium Titanate   Ceramic Substrates Polished by Magnetorheological Finishing with Dynamic   Magnetic Fields Formed by Rotating Magnetic Poles." Smart Materials and   Structures 26, no. 5 (2017).

(71) Jisheng Pan, Guoming Li,   Qiusheng Yan and Xiaowei Zhang. "Processing Characteristics of Ultrathin   Srtio3ceramic Substrates." International Journal of Nanomanufacturing   13, no. 3 (2017): 247-256.

(72) 肖晓兰, 阎秋生, 潘继生,   于鹏,   梁华卓   and 陈润.   "超精密磁流变复合抛光技术研究进展."   广东工业大学学报   33, no. 06 (2016): 28-33.

(73) 陈建新, 阎秋生 and 潘继生.   "氧化铝陶瓷基片高效减薄和超光滑抛光加工研究."   机电工程技术   45, no. 10 (2016): 37-43.

(74) Peng Yu, Jisheng Pan* and   Qiusheng Yan. "Magnetorheological Finishing with Tangential Magnetic   Fields Formed by the Rotation of a Magnetic Pole." International Journal   of Abrasive Technology 7, no. 4 (2016): 307-320.

(75) 李国明, 阎秋生 and 潘继生.   "钛酸钡陶瓷基片的双面研抛加工研究."   金刚石与磨料磨具工程   35, no. 01 (2015): 11-16.

(76)  J. S. Pan and Q. S. Yan.   "Material Removal Mechanism of Cluster Magnetorheological Effect in   Plane Polishing." International Journal of Advanced Manufacturing   Technology 81, no. 9-12 (2015): 2017-2026.

(77) 王威, 阎秋生, 潘继生   and 白振伟.   "超薄钛酸锶电瓷基片研磨加工工艺优化."   现代制造工程,   no. 12 (2014): 1-4.

(78) 潘继生, 阎秋生, 路家斌,   徐西鹏   and 陈森凯.   "集群磁流变平面抛光加工技术."   机械工程学报   50, no. 01 (2014): 205-212.

(79) 潘继生, 阎秋生 and 李伟.   "单面研磨6h-Sic单晶片的加工表面性能分析."   金刚石与磨料磨具工程   34, no. 06 (2014): 1-6.

(80) 潘继生, 阎秋生, 徐西鹏,   童和平,   祝江停   and 白振伟.   "单晶sic基片的集群磁流变平面抛光加工."   中国机械工程   24, no. 18 (2013): 2495-2499.

(81) 刘俊龙, 阎秋生, 路家斌   and 潘继生.   "Srtio_3陶瓷基片集群磁流变研磨加工表面特性研究."   中国机械工程   24, no. 15 (2013): 2000-2004.

(82) 潘继生, 潘云龙, 阎秋生   and 陈惠平.   "食品软包装复合膜热封过程的变形仿真分析."   包装与食品机械   32, no. 05 (2014): 30-34+39.

(83) 刘其, 阎秋生, 潘继生,   白振伟   and 路家斌.   "6h-Sic晶片集群磁流变研磨工艺优化."   中国科技论文   9, no. 08 (2014): 948-952.

(84) 阎秋生, 高伟强 and 潘继生.   "发动机零部件气密性检测及其装备关键技术."   机床与液压   41, no. 04 (2013): 124-126.

(85) 阎秋生, 黄升伟, 李忠荣,   潘继生   and 赖志民.   "金属带材少无毛刺精密分切加工新工艺分析."   中国机械工程   23, no. 17 (2012): 2102-2106.

(86) 童和平, 阎秋生 and 潘继生.   "一种电磁式集群磁流变电磁铁的结构设计及优化."   机电工程技术   41, no. 10 (2012): 88-91+104.

(87) 路家斌, 阎秋生, 潘继生   and 高伟强.   "电磁流变效应微磨头加工的电磁耦合协同作用机理实验."   光学精密工程   20, no. 11 (2012): 2485-2491.

知识产权(PCT专利及授权发明专利)

(1) Jisheng Pan; Qiusheng Yan; Weiqiang Gao and   Peng Yu. Self-sharpening polishing device with magnetorheological flexible   polishing pad formed by dynamic magnetic field and polishing method   thereof[P]. US10118269B2.  2018.11.6

(2) Jisheng Pan; Qiusheng Yan and Weihua Li.   Double-face polishing device and method capable of controlling rigidity of   polishing pad through cluster dynamic magnetic field[P]. US15555073.   2018.08.31

(3) Jisheng Pan, Qiusheng Yan, Weihua Li.   double-sided polishing device and method having polishing pad with stiffness   controlled by dynamic cluster magnetic field[P]. PCT/CN2017/070456, 2017.12.14

(4) Jisheng Pan, Qiusheng Yan, Weiqiang Gao,   Peng Yu. self-sharpening polishing device in dynamic magnetic field for   magnetorheological flexible polishing pad and polishing method therefor[P].   PCT/CN2016/072318, 2017.05.26

(5) 潘继生,黄展亮,阎秋生,.一种电磁耦合抛光设备及其电磁耦合控制磨粒状态的抛光方法[P].ZL201910809597.7,2024-08-09.

(6) 张棋翔,潘继生,阎秋生.一种集群磁流变研磨抛光装置及其使用方法[P].ZL201910676443.5,2024-06-18.

]潘继生,沈卓珊,阎秋生.用于磁流变抛光的四氧化三铁复合颗粒的制备方法及装置[P].ZL202211053626.X,2024-05-24.

(7) 潘继生,张棋翔,周锐,.一种电磁流变抛光用复合粒子的制备装置及制备方法[P].ZL201911410243.1,2024-04-26.

(8) 梁智镔,阎秋生,潘继生.一种磁场动态叠加的磁流变抛光装置及抛光方法[P].ZL202110286608.5,2024-04-19.

(9) 潘继生,张棋翔,邓家云,.一种电芬顿集群磁流变复合研磨抛光装置及方法[P].ZL201911337686.2,2024-04-09.

(10) 潘继生,蔡志航,阎秋生,.一种动态磁场磁流变抛光装置及抛光方法[P].ZL201911422110.6,2024-04-09.

(11) 潘继生,卓志佳,阎秋生.一种半导体基片用声光磁复合抛光装置及抛光方法[P].ZL201911336780.6,2024-03-22.

(12) 阎秋生,黄展亮,潘继生.电磁耦合装置及具有其的抛光装置、电磁流变性能测量装置[P].   ZL201910810297.0, 2024-03-15.

(13) 潘继生,向民,阎秋生.一种聚焦超声磁流变复合抛光方法及装置[P].ZL202211052789.6,2024-01-23.

(14) 罗炳军,龙江游,潘继生,.一种多层复合材料的反馈式激光脉冲加工方法及设备[P].ZL202211704322.5,2024-01-16.

(15) 潘继生,邓家云,罗斌,.一种增压雾化喷淋装置、抛光装置及抛光方法[P].ZL201910214766.2,2024-01-05.

(16) 朱铮涛,黎勉,陈益民,.一种水稻种子定量出料机构[P].ZL201910811163.0,2024-01-05.

(17) 朱铮涛,黎勉,陈益民,.一种水稻种子膜铺膜机[P].ZL201910806105.9,2023-09-19.

(18) 潘继生,邓伟军,阎秋生.一种磁性纳米颗粒的性能评估实验装置及方法[P].ZL202111342386.0,2023-09-12.

(19) 潘继生,罗斌,阎秋生,.一种集群动压磁流变抛光设备及方法[P].ZL201711448619.9,2023-07-25.

(20) 罗炳军,龙江游,潘继生,.一种PCB线路板短路缺陷的修补复检方法及设备[P].ZL202211423863.0,2023-07-18.

(21) 龙江游,席明杰,罗炳军,.一种多层复合薄膜及其在激光精密成型中的应用[P].ZL202310097528.4,2023-07-04.

(22) 潘继生,罗斌,阎秋生,.一种柱面镜圆弧面的抛光装置[P].ZL201810576477.2,2023-05-05.

(23) 潘继生,罗斌,阎秋生,.一种动态磁场磁流变抛光装置[P].ZL201711080305.8,2023-05-05.

(24) 罗炳军,潘继生,龙江游,.一种激光用铜钛涂层玻璃墨片的装备和成型方法[P].ZL202110887423.X,2023-04-25.

(25) 潘继生,南耀第,罗炳军,.一种复合铜薄膜的精密分切合成设备及精密分切合成方法[P].   ZL202110887501.6, 2023-04-14.

(26) 龙江游,潘继生,罗炳军,.一种激光修补PCB线路板用薄膜铜的制备装置[P].ZL202110886137.1,2023-03-07.

(27) 路家斌,曾帅,阎秋生,.一种适用于SiC晶片的磨粒定向的固相反应研磨盘及其制备方法和应用[P].   ZL202110286580.5, 2022-12-23.

(28) 罗炳军,潘继生,龙江游,.一种磁控PCB线路板防漏真空吸附装置及吸附方法[P].ZL202110886231.7,2022-11-11.

(29) 潘继生,阎秋生,柏显亭,.一种曲率自适应集群磁流变抛光自由曲面的方法及装置[P].ZL202110838320.4,2022-10-04.

(30) 龙江游,周可松,潘继生,.一种印刷线路板短路激光修复方法及设备[P].ZL202210070927.7,2022-08-02.

(31) 潘继生,阎秋生,席兴文,.一种摩擦磨损检测装置[P].ZL202110851996.7,2022-07-12.

(32) 潘继生,阎秋生,蔡志航,.一种超光滑平坦化抛光方法及装置[P].ZL202110673642.8,2022-07-01.

(33) 阎秋生,郭晓辉,路家斌,.往复移动滚剪的非晶合金带材横剪加工装置和方法[P].ZL202011364883.6,2022-06-14.

(34) 潘继生,黄开泽,阎秋生,.永磁式集群磁流变抛光机构及抛光方法[P].ZL202110867157.4,2022-06-10.

(35) 罗炳军,潘继生,龙江游,.一种基于3D视觉的PCB电路板实时修补方法及系统[P].ZL202110729472.0,2021-12-07.

(36) 潘继生,陈志君,阎秋生,.一种抛光用复合颗粒的制备装置及制备方法[P].ZL201910214763.9,2021-05-28.

(37) 潘继生,张棋翔,阎秋生,.一种研磨抛光用复合粒子的制作装置及制作方法[P].ZL201910214770.9,2020-12-08.

(38) 潘继生,于鹏,阎秋生.磁流变平面抛光用多级真空吸附装置及其加工方法[P].ZL201610398930.6,2018-07-10.

(39) 肖晓兰,阎秋生,潘继生,.一种用于SiC单晶片的磁流变化学机械抛光液及其使用方法[P].   ZL201610630974.7 2018-05-15.

(40) 阎秋生,潘继生.双面平坦化加工系统[P].ZL201610917180.9,2018-05-15.

(41) 潘继生,阎秋生,高伟强,.磁流变柔性抛光垫的动态磁场自锐抛光装置及其抛光方法[P].   ZL201510801886.4, 2018-03-30.

(42) 潘继生,阎秋生,张凤林.一种自修整磁流变柔性抛光砂轮及其磨抛方法[P].ZL201511025600.4,2018-01-30.

(43) 潘继生,阎秋生,李卫华.一种集群动态磁场控制抛光垫刚度的双面抛光装置及方法[P].ZL201610406771.X,2018-01-30.

(44) 潘继生,于鹏,阎秋生,.一种静磁动场磁流变抛光机理试验装置及其加工方法[P].ZL201511027963.1,2017-12-29.

(45) 洪波,陈惠平,阎秋生,.一种纳米防渗透蒸煮袋及其纳米粘结剂及制作方法[P].ZL201310642828.2,2017-03-01.

(46) 阎秋生,曾军,冯文雅,.金属板材圆盘剪分切加工三向力测量装置及其方法[P].ZL201410425021.8,2017-03-01.

(47) 潘继生,阎秋生,路家斌.柔性抛光垫在线修整的超光滑平面研磨抛光装置及方法[P].ZL201410424335.6,2017-01-11.

(48) 路家斌,潘继生,祝江亭,.一种单晶碳化硅晶片的化学集群磁流变复合加工方法[P].ZL201210304530.6,2016-09-21.

(49) 潘继生,陈森凯,路家斌,.一种单晶半导体基片的截面快速制作及亚表面微裂纹检测方法[P].   ZL201310643511.0, 2016-01-20.

(50) 潘继生,阎秋生,路家斌,.磁流变效应粘弹性夹持的电瓷基片柔性研抛装置及方法[P].ZL201210553510.2,2015-12-23.

(51) 李扬,潘继生,黎勉,.一种具有振动分离功能的真空吸附装置[P].ZL201110361329.7,2014-04-09.

(52) 彭泽光,高伟强,阎秋生,.一种制袋膜片变相对切恒张力送膜装置[P].ZL201210005482.0,2013-11-13.

(53) 李杨,潘继生,陈益民,.一种圆片自动上料机构[P].ZL201110047163.1,2013-06-19.

(54) 阎秋生,潘继生,黄升伟,.一种金属带材无毛刺分切加工装置及其加工方法[P].ZL201110136574.8,2012-07-04.

(55) 梁锡昌,潘继生.闭燃转叶发动机的背压叶片机构[P].ZL200510057101.3,2009-02-11.

(56) 梁锡昌,潘继生.纯滚动减速器[P].ZL200710078596.7,2008-11-19.

(57) 梁锡昌,王家序,潘继生.喷气发动机的蒸汽助推装置及方法[P].ZL200510057309.5,2008-06-11.

(58) 梁锡昌,王家序,潘继生.内燃蒸汽发动机[P].ZL200510057308.0,2007-11-14.

 

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