fubin
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- Lecturer
- Supervisor of Master's Candidates
- Name (Pinyin):fubin
- Date of Birth:1999-01-13
- E-Mail:
- Date of Employment:2025-12-29
- School/Department:长春工业大学机电工程学院
- Education Level:With Certificate of Graduation for Doctorate Study
- Business Address:南湖校区机电楼1182
- Contact Information:15504415101
- Degree:Doctoral Degree in Engineering
- Professional Title:Lecturer
- Status:Employed
- Alma Mater:长春工业大学
- Teacher College:机电工程学院
- Discipline:Mechanical Manufacture and Automation
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付斌,男,工学博士,讲师。
吉林省微纳与超精密制造重点实验室与吉林省高性能制造及检测国际科技合作重点实验室成员。参与国家自然科学基金重点项目1项,国家自然科学基金面上项目1项,省部级项目4项。发表论文10余篇。
主要从事高硅铝合金、铝基碳化硅等复合材料的激光-超声振动协同切削、硬脆材料能场辅助抛光等方向的研究。
近五年主持或参加的主要课题:
(1) 国家自然科学基金-区域创新发展联合基金重点项目,U19A20104,热弹激励-超声冲击耦合切削颗粒增强金属基复合材料新原理与新方法,2020-01 至 2023-12, 260万元, 参与;
(2) 国家自然科学基金面上项目,52475426,抗磁性体填充-振动冲击耦合场致流变抛光高硅铝合金基片机理研究,2025-01 至 2028-12, 48万元, 参与;
(3) 长春市科技局揭榜挂帅项目, 汽车模具导滑面自动化磨抛系统开发, 2025-12 至 2027-8, 240万元, 参与;
(4) 吉林省自然科学基金自由探索项目, YDZJ202601ZYTS105, 热-润滑-振动耦合抑制紫外熔融石英切削损伤机理研究, 2026-01 至 2028-12, 25万元, 参与;
(5) 吉林省科技厅, 自由探索类基础研究, YDZJ202401347ZYTS, 高硅铝合金脉冲激光振动辅助研磨机理研 究, 2024-01 至 2026-12, 25万元, 参与;
(6) 吉林省科技厅, 重点研发, 20230201103GX, 铝基碳化硅复合材料振动辅助磁流变装备开发, 2023-01 至 2025-12, 50万元, 参与。
发表论文:
(1) Fu Bin; Gu Yan; Lin Jieqiong; Zhou Xiaoqin; Gao Tianyu; Wang Jiali; Han Lingling; Zhang Yongliang; Pulsed laser remelting non-resonant vibration assisted grinding Al-Si alloy, International Journal of Mechanical Sciences, 2025, 293: 110226 (SCI期刊,中科院一区TOP,IF:9.4)
(2) Fu Bin; Gu Yan; Lin Jieqiong; Zhao Jiaxin; Liu Yuanshuo; Luan Yunlong; Li Shuai; Chen Jinlong; Mechanism of the coupling effect of pulse laser remelting and ultrasonic vibrationin suppressing surface/subsurface defects and improving wear resistance of Al-50Si, Tribology International, 2025, 214: 111214 (SCI期刊,中科院一区TOP,IF:6.9 )
(3)Fu Bin; Gu, Yan; Lin, Jieqiong; Fu, Licheng; Gao, Tianyu; Yu, Hang; Wang, Tuo; Zhang, Yongliang; Influence mechanism of ultrasonic vibration and pulsed laser on the surface formation of SiCp/Al in cutting, International Journal of Thermal Sciences, 2025, 218: 110143(SCI期刊,中科院二区TOP,IF:5 )
(4) Fu Bin; Gu Yan; Lin Jieqiong; Du Guangze; Li Guoqing; Wu Wenrui; Xu Zisu; Zhao Huibo; Study on removal mechanism of sintered SiC ceramic in wheel type vibration magnetorheological compound polishing, Precision Engineering-journal of The International Societies For Precision Engineering and Nanotechnology, 2025, 97: 722-741(SCI期刊,中科院二区,IF:3.7)
(5) Lin Jieqiong; Fu Bin; Gu Yan; Xi Yuan; Wu Shuang; Kang Mingshuo; Liang Guangyu; Experimental and MD simulation study of surface residual stress and surface quality of SiCp/Al in pulsed laser-ultrasonic assisted grinding[J]. Journal of Materials Research and Technology, 2024, 30: 7741-7755.(SCI期刊,中科院二区,IF:6.6)
(6) Gu Yan; Fu Bin; Lin Jieqiong; Chen Xiuyuan; Zhou Weidong; Yu Bingjin; Zhao Huibo; Li Zhen; Xu Zisu; A novel wheel-type vibration-magnetorheological compound finishing method, International Journal of Advanced Manufacturing Technology, 2023, 125(9-10): 4213-4235(SCI期刊,中科院三区,IF:3.1 )
(7)Material removal mechanism of non-resonant vibration assisted magnetorheological finishing of silicon carbide ceramics[J]. International Journal of Mechanical Sciences, 2023, 242:107986.(SCI期刊,中科院一区TOP,IF:9.4)
(8) Non-resonant vibration-assisted magnetorheological finishing[J]. Precision Engineering, 2021, 71: 263-281.(SCI期刊,中科院二区,IF:3.7)
(9) Investigation on enhanced machinability of SiC ceramics through photocatalytic vibration composite polishing[J]. Langmuir, 2024, 40: 3035-3052.(SCI期刊,中科院二区,IF:3.9)
(10) The fabrication of high-performance diffraction gratings via vibration-assisted UV nanoimprinting lithography[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 679: 132569.(SCI期刊,中科院二区,IF:5.4)
(11) Surface modification mechanism of laser-assisted grindino process for high silicon aluminum alloy: A molecular dynamicsl study[J].Surfaces and Interfaces, 2025, 56: 105753.(SCI期刊,中科院三区,IF:6.3)
(12) Study on PCD tool wear in pulsed laser assisted turning Al50wt% Si alloy[J]. Materials Today Communications, 2025, 42: 111181.(SCI期刊,中科院三区,IF:4.5)
(13) Design, analysis, and testing of a new asymmetric vibrationassisted stage for roll-type polishing[J]. Review of Scientific Instruments, 2023, 94:125011(SCI期刊,中科院四区,IF:1.7)
发明专利:
[1] 原位纳秒脉冲激光非谐振研磨装置及其工作方法[P].CN202510858894.6,2025-8-22.
[2] 脉冲激光非谐振辅助研磨装置[P].CN202410107376.6,2024-3-19.
[3] 振动辅助磁性磨料光整加工装置及方法[P].CN202410688801.5,2024-8-13.
[4] 一种非谐振式振动辅助抛光装置及方法[P].CN201811171292.X,2024-4-23.
[5] 一种用于加工光学元件的非谐振振动辅助磁流变抛光装置及方法[P].CN201910856143.5,2023-5-12.
[6] 辊型振动辅助抛光装置及方法[P].CN201810323490.7,2023-10-24.
[7] 一种可制备多级微结构的装置[P].CN202110249538.6,2024-07-12.
[8] 一种可制备复杂微结构的纳米压印装置[P].CN201810020867.1,2024-05-28.
[9] 一种滚压装置及滚压方法[P].CN201810176362.4,2023-11-28.
课题组每年招收10-12名硕士(机械工程、智能制造及相近专业的学硕与专硕)
主要研究内容:
1、脉冲激光重熔非谐振振动辅助磨削机理研究
2、能场辅助加工数值模拟
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