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个人信息Personal Information
讲师(高校)
学历:博士研究生
学位:工学博士学位
所在单位:制造工程研究院
电子邮箱:
在职信息:在岗
职务:博士后
个人简介Personal Profile
主要从事半导体材料高效精密加工方面的研究,在Tribology International、Applied Surface Science等业内高水平刊物上发表论文十余篇;授权中国发明专利2项。入选2024年福建省优秀博士后支持专项。
教育与工作经历
2024.7-至今 华侨大学制造工程研究院 讲师/博士后
2020.9-2024.6 华侨大学制造工程研究院 工学博士
人才荣誉
福建省优秀博士后支持专项
获奖情况
[1] 第十八届切削与先进制造技术学术会议优秀博士研究工作论文,三等奖
[2] 第三届全国博士后创新创业福建省选拔赛,优胜奖
[3] 第二十一届中国磨粒技术学术会议,优秀论文
代表文章:
[1] Wu M, Wu Y, Huang H, et al. Interfacial characterization and formation mechanisms dominated by solid-state diffusion/reaction in Ni/single-crystal 4H-SiC system. Materials Characterization. 2025,227:115264. (SCI二区/Q1,IF=5.5)
[2] Wu M, Wu Y, Lai Z, et al. Design and experimental validation of non-trimming polishing plate for high wear-resistant workpieces based on optimized motion trajectory distribution. Precision Engineering. 2025,93:551-558. (SCI二区/Q1,IF=3.7)
[3] Wu M, Huang H, Xu Z, et al. Mechanism of friction-induced chemical reaction high-efficient polishing single crystal 4H-SiC wafer using pure iron. Tribology International, 2024,193:109450. (SCI一区/Q1,IF=6.9,Top)
[4] Wu M, Huang H, Wu Y, et al. Mechanism of solid-state diffusion reaction in vacuum between metal (Fe, Ni, and Co) and 4H–SiC. Ceramics International, 2024, 50:17930-17939. (SCI二区/Q1,IF=5.6, Top)
[5] Wu M, Huang H, Luo Q, et al. A novel approach to obtain near damage-free surface/subsurface in machining of single crystal 4H-SiC substrate using pure metal mediated friction, Applied Surface Science, 2022, 588: 152963. (SCI一区/Q1,IF=6.9, Top)
[6] 武民, 马利杰, 王占奎等. 不同振动方式下的钛合金超声振动铣削表面完整性研究[J]. 振动与冲击, 2021, 40(04): 164-170. (EI 收录)
[7] 武民, 马利杰, 王占奎等. 工艺参数对钛合金超声振动铣削表面显微硬度的影响[J]. 机械科学与技术, 2020, 39(10): 1587-1592. (CSCD核心库)
[8] Wu T, Wu M, Huang H, et al. Mechanism of TiO2 friction-induced oxidation for high-efficiency removal of single-crystal 4H-SiC, Applied Surface Science, 2026, 721: 165423. (SCI二区/Q1,IF=6.9)
[9] Xue M, Huang H, Wu M, et al. Experimental study on the friction removal mechanism between single crystal diamond and quartz glass , Carbon, 2026, 248: 121112. (SCI二区/Q1,IF=11.6, Top)
[10] 张博楠, 黄辉, 武民. 单晶4H-SiC的摩擦诱导化学机械复合加工(FCMM)实验研究[J]. 机械工程学报, 2024, 60(07): 401-410. (EI 收录)
[11] Yan D,Huang Hui H,Wu M, et al. Study on interaction mechanism between He+ and 4H-SiC during plasma-assisted polishing [J]. Surface and Interface, 2025, 69: 106789. (SCI三区/Q1,IF=6.3)
[12] Huang Y, Huang H, Xu X, Wu M, et al. Compression, Analysis of diffusion in Fe/4H-SiC by molecular dynamics method [J]. Precision Engineering, 2025, 95:286-297. (SCI二区/Q1,IF=3.7)
[13] Xu Z, Huang H, Cui C, Liao X, Min M, et al. Complex-shaped metal parts high efficiency sawing with diamond wire[J]. International Journal of Mechanical Sciences, 2023, 250: 108306. (SCI一区/Q1,IF=9.4,Top)
发明专利:
[1] 黄辉,武民,张博楠,一种碳化硅表面化学机械复合加工方法(专利号:ZL 202210086357.0)
[2] 徐西鹏,武民, 黄辉,吴跃勤,一种高耐磨工件的磨盘设计方法(专利号:ZL 202311374462.5)
联系方式:
E-mail:wmzwxy@hqu.edu.cn