路家斌

作者: 时间:2022-04-01 点击数:

路家斌 LUJIABIN 教授

 

所属学院:机电工程学院

导师类别:博士研究生导师,硕士生导师

科研方向:机械工程;超精密加工;精密分切加工

联系方式:lujiabin@gdut.edu.cn13808824867@139.com

硕士招生学院:机电工程学院


个人简述

现任广东工业大学教授,博士研究生导师,硕士生导师。现为中国机械工程学会生产工程分会光整加工专业委员会委员,广东省机械工程学会机械设计与生产工程分会理事。长期从事硬脆材料、复合材料的研磨抛光加工、金属薄板精密剪切等相关领域的研究,目前主要研究方向包括半导体材料超精密研磨抛光加工理论与技术、固相反应研磨盘和抛光盘的研制、CMP抛光工艺和抛光液研究等。作为项目负责人主持国家自然科学基金面上项目2项,省市级、企业研究项目近10多项。第一作者或通讯作者在国内外学术刊物和会议上发表学术论文60多篇,其中SCI收录论文20多篇,EI收录论文30多篇。授权国家发明专利10多件,授权实用新型专利20多件。

 

学科领域

科学学位:机械工程,机械制造及其自动化,机械设计及理论

专业学位:机械工程

 

教育背景

2006.9--2011.12,广东工业大学,机械制造及其自动化专业,获工学博士学位

1992.9-1995.3,武汉工学院(现名: 武汉理工大学),机械学专业,获工学硕士学位

1988.9-1992.6,天津轻工业学院(现名: 天津科技大学),化工设备与机械专业,获工学学士学位

 

工作经历

1995.4-今,广东工业大学,机电工程学院,教师

 

学术兼职

中国机械工程学会生产工程分会光整加工专业委员会委员

广东省机械工程学会机械设计与生产工程分会理事

 

主要荣誉

2021.1.15,《高端金属板带精密高效剪切加工关键技术及装备》获2020年度广东省科学技术奖技术发明奖二等奖,评奖单位:广东省科学技术厅,排名: 4/10(校内排第2)

2020.11.20, 《金属板带高精度加工关键技术及装备》获中国机械工业科学技术奖科技进步奖三等奖,评奖单位:中国机械工程学会,排名: 4/10

2020.8, 《光电晶片集群磁流变超光滑平坦化加工技术》获2020年粤港澳大湾区高价值专利培育布局大赛最具投资潜力奖,排名: 5/6

2013.8,论文《电磁流变效应微磨头抛光加工电磁协同作用机理》获2011-2012年度优秀论文一等奖,评奖单位:广东省机械工程学会,排名: 1/3

2011.11, 举办的“2010年中国(国际)光整加工技术学术会议”获 “2006-2011年中国机械工程学会工作成果奖”, 评奖单位:中国机械工程学会, 排名: 2/3

 

 

主要论文

[1]  Da Hu, Jiayun Deng, Jiabin Lu*, Qiusheng Yan, Canlin Du, Jiyang Cao. A study of the magneto-controlled mechanical properties and polishing performance for single-crystal SiC used as a magnetorheological-elastomer polishing pad. Smart Materials and Structures, 2022,31: 035021

[2]  Jiayun Deng, Jiabin Lu*, Shuai Zeng, Qiang Xiong, Qiusheng Yan*, Jisheng Pan. Preparation and processing properties of magnetically controlled abrasive solidification orientation—solid-phase Fenton reaction lapping-polishing plate for single-crystal 4H-SiC. Surfaces and Interfaces, 2022, 29:101646

[3]  Jiabin Lu*,Yuanfu Huang, Youzhi Fu, Qiusheng Yan, and Shuai Zeng. Synergistic effect of photocatalysis and Fenton on improving the removal rate of 4H-SiC during CMP. ECS Journal of Solid State Science and Technology, 2021, 10(4): 044001  

[4]  Jiayun Deng, Jiabin Lu*, Qiusheng Yan*, Jisheng Pan. Basic research on chemical mechanical polishing of single-crystal SiC-Electro-Fenton: Reaction mechanism and modelling of hydroxyl radical generation using condition response modelling. Journal of Environmental Chemical Engineering, 2021, 9(2): 104954.    

[5]  Jiayun Deng, Jiabin Lu*, Qiusheng Yan*, Jisheng Pan. Enhancement mechanism of chemical mechanical polishing for single-crystal 6H-SiC based on Electro-Fenton reaction. Diamond & Related Materials, 2021, 111:108147  

[6]  Jiayun Deng, Jiabin Lu*, Shuai Zeng, Qiusheng Yan*, Jisheng Pan. Processing properties for the Si-face of the 4H-SiC substrates using the magnetically-controlled abrasive solidification orientation–solid-phase Fenton reaction for the fabrication of the lapping–polishing plate. Diamond & Related Materials, 2021,120:108652

[7]  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, 2021,32(13):1441-1451

[8]  Jiayun Deng, Qixiang Zhang, Jiabin Lu*, Qiusheng Yan*, Jisheng Pan, 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, 2021, 72: 102–110

[9]  Qiang Xiong, Jiabin Lu*, Qiusheng Yan*, Jisheng Pan. Edge burr development when using a cemented carbide micro-drill: Formation and control mechanisms. Precision Engineering, 2021, 72: 192–204

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

[11]  Bin Luo, Qiusheng Yan*, Jisheng Pan, Jiabin Lu, Zhanliang Huang. Influences of processing parameters on metal-bonded diamond wheel wear when grinding a sapphire wafer. Diamond & Related Materials, 2021, 113: 108275  

[12]  Huazhuo Liang, Qiusheng Yan, Jisheng Pan*, Bin Luo, Jiabin Lu, 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, 2021,49(1): 255-269  

[13]  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 , 2021, 12(8): 910

[14]  Qiang Xiong,Qiusheng Yan*, Jiabin Lu, Jisheng Pan. The effects of grinding process parameters of a cemented carbide micro-drill on cutting edge burr formation. The International Journal of Advanced Manufacturing Technology, 2021, 117(9-10): 3041-3051

[15]  Jun Zeng, Jiabin Lu*, Zhihao Gao, Qiusheng Yan. Formation mechanism for edge of disc cutter made of WC/Co cemented carbide. International Journal of Abrasive Technology, 2020,10(1):44-61

[16]  Jiayun Deng, Jisheng Pan*, Qixiang Zhang, Qiusheng Yan*, Jiabin Lu. The mechanism of Fenton reaction of hydrogen peroxide with single crystal 6H-SiC substrate. Surfaces and Interfaces, 2020,21:100730

[17]  Jisheng Pan, Kun Zheng, Qiusheng Yan, Qixiang Zhang, 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, 2020,29(11):

[18]  Canming Wang*, Qiusheng Yan, Jiabin Lu, Xiaowei Zhang. Influence of guillotine clearance on cut-edge damage to nonoriented electrical steel. Journal of Materials Engineering and Performance, 2020,29(1):573-581  

[19]  Qiusheng Yan, Xin Wang, Qiang Xiong, Jiabin Lu*, Botao Liao. The influences of technological parameters on the ultraviolet photocatalytic reaction rate and photocatalysis-assisted polishing effect for SiC. Journal of Crystal Growth, 2020,531:125379  

[20]  Yiwei Zhu, Qiusheng Yan*, Jiabin Lu. Deformation characteristics and grain size effect of thin silicon steel sheet during shearing. Machining Science and Technology, 2020,24(4):544-568

[21]  Yiwei Zhu, Qiusheng Yan*, Jiabin Lu. Fault diagnosis method for disc slitting machine based on wavelet packet transform and support vector machine. International Journal of Computer Integrated Manufacturing, 2020, 33(10-11): 1118-1128  

[22]  Bin Luo, Qiusheng Yan, Jisheng Pan, Jiabin Lu, Zhiqing Hong. A study of methods for the magnetorheological finishing of glass panels for the inner screen of mobile phones. International Journal of Abrasive Technology, 2019,9(3): 235-255

[23]  Huazhuo Liang, Qiusheng Yan, Jiabin Lu*,Bin Luo,Xiaolan Xiao. Material removal mechanisms in chemical-magnetorheological compound finishing. International Journal of Advanced Manufacturing Technology, 2019, 103:1337–1348  

[24]  Huazhuo Liang, Jiabin Lu*, Jisheng Pan*, Qiusheng Yan. Material removal process of single-crystal SiC in chemical-magnetorheological compound finishing. International Journal of Advanced Manufacturing Technology, 2018, 94: 2939-2948   

[25]  Huazhuo Liang, Jiabin Lu*, Qiusheng Yan. Catalysts based on Fenton reaction for SiC wafer in chemical magnetorheological finishing. AIMS Materials Science, 2018,5(6): 1112–1123.  

[26]  Huazhuo Liang, Jiabin Lu*, Qiusheng Yan, Tao Song. Chemical catalysts of Fenton reaction for single-crystal SiC based on nanoindentation. International Journal of Abrasive Technology, 2018,8(3):232-244

[27]  Jiabin Lu*, Run Chen, Huazhuo Liang, Qiusheng Yan. The influence of concentration of hydroxyl radical on the chemical mechanical polishing of SiC wafer based on the Fenton reaction. Precision Engineering, 2018,52: 221-226  

[28]  Qiusheng Yan, Zhihui Kuang, Jiabin Lu*. Effect of AlTiN-coating oblique guillotine tools on their performance when shearing electrical steel sheets. International Journal of Advanced Manufacturing Technology, 2018,99(1), 819-831  

[29]  Qiusheng Yan, Senkai Chen, Jisheng Pan, Jiabin Lu, Qi Liu. The surface and subsurface damage characteristics and material removal mechanism in 6H-SiC wafer grinding. Materials Research Innovations, 2014,18:742-747  

[30]  Zhenwei Bai*, Qiusheng Yan, Jiabin Lu, Xipeng Xu. Parametric investigation into accommodate-sinking effect of cluster magnetorheological effect pad. International Journal of Advanced Manufacturing Technology, 2014,75(9-12): 1447-1456   

[31]  Jiabin Lu*, Qiusheng Yan, Hong Tian, Lingye Kong. Polishing properties of tiny grinding wheel based on Fe3O4 electrorheological fluid. Journal of Materials Processing Technology, 2009, 209(11): 4954-4957  

[32]  Jiabin Lu*, Qiusheng Yan, Juan Yu, Weiqiang Gao. Parametric study of micro machining with instantaneous tiny-grinding wheel based on the magnetorheological effect of abrasive slurry. International Journal of Materials and Product Technology, 2008, 31(1): 113-124  

[33]  阎秋生*, 廖博涛, 路家斌, 付有志. 集群磁流变变间隙动压平坦化加工试验研究. 机械工程学报, 2021,57(19):230-238

[34]  路家斌*,曾帅,阎秋生,熊强,邓家云. 基于磁控磨料定向的SiC固相芬顿反应研抛盘制备及性能研究. 表面技术, 2021,50(10):353-362

[35]  付有志, 路家斌*, 阎秋生, 谢殿华. 磁流变动压复合抛光基本原理及力学特性. 表面技术, 2020,49(4):55-63

[36]  朱奕玮, 阎秋生*, 汤彪, 路家斌. 刀具表面状态对电工钢板剪切断面完整性的影响. 表面技术, 2019, 48(11): 159-169

[37]  路家斌,熊强,阎秋生*,王鑫,廖博涛. 紫外光催化辅助SiC抛光过程中化学反应速率的影响. 表面技术, 2019,48(11): 148-158.

[38]  徐少平, 路家斌*, 阎秋生, 宋涛, 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, 2017,53(21):167-173

[39]  路家斌*, 曾军, 阎秋生. 圆盘剪分切断面形貌形成机理研究. 机械工程学报, 2014, 50(11): 178-185

[40]  潘继生, 阎秋生, 路家斌, 徐西鹏, 陈森凯. 集群磁流变平面抛光加工技术. 机械工程学报, 2014, 50(1):205-212

[41]  路家斌*, 潘嘉强, 阎秋生. 不锈钢薄板圆盘剪分切过程有限元仿真研究. 机械工程学报, 2013,49(9):190-198

[42]  路家斌*, 阎秋生, 潘继生, 高伟强. 电磁流变效应微磨头加工电磁耦合协同作用机理实验. 光学 精密工程, 2012,20(11):2485-2491 

[43]  路家斌*, 阎秋生, 田虹, 高伟强.. 电磁流变效应微磨头抛光加工电磁协同作用机理. 摩擦学学报, 2010,30(2):190-196

 

知识产权

[1] 阎秋生, 朱奕玮, 路家斌, 汤彪. 一种具有润滑油导流微沟槽的横剪刀, 发明, ZL201811230028.9, 授权时间: 2021.1.5

[2] 阎秋生, 汤彪, 路家斌, 朱奕玮. 一种通过橡胶圈挤压供油的微沟槽组合圆盘刀, 发明, ZL201811230961.6, 授权时间: 2021.2.9

[3] 路家斌, 梁华卓, 汤彪. 一种凸轮驱动磁体式磁流变流体动压抛光装置及抛光方法, 发明, 201710094137.1, 授权时间: 2019.06.14

[4] 肖晓兰, 阎秋生, 潘继生, 路家斌, 陈润, 梁华卓. 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, 发明, 201610630974.7, 授权时间: 2018.05.15

[5] 路家斌, 梁华卓, 阎秋生, 陈润. 一种半导体基片的流体动压抛光装置及其抛光方法, 发明, ZL201610351953.1, 授权时间: 2018.05.01

[6] 路家斌, 陈润, 阎秋生, 梁华卓, 朱奕玮. 一种自增压高速磨粒磁流孔内表面抛光方法及装置, 发明, 201610219339.X, 授权时间: 2018.04.17

[7] 路家斌, 梁华卓, 阎秋生, 陈润. 一种磁流变流体动压复合抛光装置及其抛光方法, 发明, ZL201610352311.3, 授权时间: 2018.04.17

[8] 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, 发明, ZL201410424335.6, 授权时间: 2017.01.11

[9] 阎秋生, 曾军, 冯文雅, 路家斌, 潘继生. 金属板材圆盘剪分切加工三向力测量装置及其方法, 发明, ZL201410425021.8, 授权时间: 2017.03.01

[10] 路家斌, 潘继生, 祝江停, 阎秋生, 徐西鹏. 一种单晶碳化硅晶片的化学集群磁流变复合加工方法, 发明, ZL201210304530.6, 授权时间: 2016.09.21

[11] 潘继生, 陈森凯, 路家斌, 阎秋生. 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, 发明, ZL201310643511.0, 授权时间: 2016.01.20

[12] 潘继生, 阎秋生, 路家斌, 王威. 磁流变效应粘弹性夹持的电瓷基片柔性研抛装置及方法, 发明, ZL201210553510.2, 授权时间: 2015.12.23

[13] 阎秋生, 高伟强, 路家斌. 基于磁流变效应的研磨抛光方法及其抛光装置, 发明, ZL200610132495.9, 授权时间: 2009.05.13

 

 

科研项目

(1) 国家自然科学基金面上项目:单晶金刚石激光诱导石墨化辅助CMP抛光协同作用机制与关键技术(52175385), 2022.01-2025.12, 58万元, 主持

(2) 国家自然科学基金面上项目: SiC晶片原子级超光滑表面磁流变化学复合抛光加工研究(51375097), 2014.01-2017.12, 80万元, 主持

(3) 广东省自然科学基金面上项目:单晶金刚石紫外光催化-芬顿反应CMP抛光协同作用机制与关键技术, 2022.01-2024.12, 10元,主持

(4) 广东省科技计划项目粤港重大专项:电工硅钢板材精密剪切加工技术研究及装备研发(2016A050503043), 2016.01-2018.12, 100万元, 主持

(5) 广州市产学研协同创新重大专项: 高效节能汽车发动机自动压装与智能检测一体化关键技术及产业化(201508010056), 2015.01-2017.12, 200万元, (合作单位)主持

(6) 广东省科技计划项目: 高效节能电磁感应罐身焊缝补涂烘干机组关键技术研发及产业化(2013B090600039), 2015.01-2016.12, 80万元, (合作单位)主持

(7) 国家自然科学基金-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(U1801259), 2019.01-2022.12, 255万元, 参加

(8) 国家自然科学基金面上项目:降减剪切边缘损伤和毛刺的电工硅钢板材精密剪切加工研究(51575112), 2016.01-2019.12, 63万元, 参加

(9) 国家自然科学基金面上项目: 控制材料应力应变状态的金属板材无毛刺精密分切加工研究(51175090), 2012.01-2015.12, 65万元, 参加

(10) 国家自然科学基金-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(U1034006), 2011.01-2014.12, 190万元, 参加

(11) 国家自然科学基金面上项目: 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(50575045), 2006.01-2008.12, 28万元, 参加

 

 

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