吴世雄

作者: 时间:2015-10-25 点击数:

 

IMG_7867_副本

教授、硕士生导师

Email:151688386@qq.com

地址:广州市番禺区大学城广东工业大学实验3号楼205

 

简介:广东工业大学机电工程学院教授,研究生导师。在科研方面,主要从事难加工材料高性能零件的多物理场耦合高效精密制造方法及装备、难加工材料全激光高效精密加工方法;医疗器械及生物组织加工方法的研究。近些年主持了国家自然科学基金面上项目、国家重点研发计划子项目、国家自然科学基金青年基金项目、省科技计划项目、省教育厅特色创新类项目、省基金项目,作为骨干获得中国制造工艺协会科学技术奖(校内排第三)。论文方面,发表第一作者/通信作者学术论文 40 多篇,其中 SCI/EI 论文20多篇。教学方面,是国家一流课程《机械制造基础》及《工程训练》骨干成员十二届校级教育教学成果奖特等奖成员

 

一、教育背景

2000.92005.6 浙江大学硕、博

 

二、工作经历

2005.9  广东工业大学机电工程学院 讲师、副教授、教授

 

三、科研方向及科研项目

1. 研究方向

(1)  难加工材料全激光高效精密加工方法;

(2)  难加工材料高性能零件的多物理场耦合高效精密制造方法、工艺及装备;

(3)  医疗器械及生物组织加工方法;

 

2. 主持科研项目:

  国家自然科学基金面上项目, 52275414, 超薄钛合金原生微流道微刃刀具绿色切削加工研究, 54, 2023.1~2026.12

  国家重点研发计划项目子项目, 2018YFB2002202, 高速、低温、清洁切削机理及关键前沿技术, 58, 2019.7~2022.7

  广东省自然科学基金项目, 2018A030313107, 含石墨烯油膜包水雾化射流内置式微润滑的深切高速铣削研究, 10, 2018.6~2021.6

  广东省科技计划项目, 2017A010102011, 面向大型多深腔汽车覆盖件模具的高效低耗深切数控铣关键技术. 30, 2017.1~2020.12

  国家自然科学基金青年基金项目, 50905034, 高速铣削复杂型腔模具中的拐角刀具轨迹优化, 20, 2010.1~2013.12

  广东省教育厅项目, 几何-机理-工艺-切削力等多约束协同的高硬曲面零件的高速切削及加工路径研, 40, 2016.1~2018.12

参与项目(主要参与人):

  国家自然科学基金重点项目, U1201245, 高速硬铣削加工多层多元纳米复合涂层刀具及其切削性能. 280, 2013.1~2016.12

 

四、教学及人才培养

  十二届校级教育教学成果奖特等奖成员;

  第二十五届广东省青年五四奖章集体奖主要成员;

  2020-2021学年校级教学优秀二等奖;

  2017院级青年教师教学竞赛二等奖;

  2017-2018学年校级先进班集体,近30名学生考上研究生;

  近些年指导的研究生,3名获得国家奖学金,近10名获得一等奖学金;

  2名研究生获第18届中国研究生数学建模竞赛三等奖;

  研究生多入职头部企业(比亚迪、格力、美的、华为、中广核等)

 

五、社会服务

  机电工程技术杂志青年编委;

  广东省精准医学应用学会医工结合分会委员;

  广东省生物医学工程学会植入器械与先进制造分会委员;

  国家自然科学基金函评专家;

  Journal of Materials Processing TechnologyJournal of Manufacturing Processes等国际期刊审稿人。

 

六、代表性学术论文和专著

[1]      Shixiong Wu*, Yukang He, Tao Zhu, Zhang Wenfeng, Wanglin Chen, Chengyong Wang. Microstructure and mechanical properties of superficial surface and subsurface layers in the cutting of hardened steel under cryogenic cooling[J]. Journal of Materials Processing Technology, 2023, 322: 118165. (中科院SCI)

[2]      Shixiong Wu*, Guangdong Liu, Wenfeng Zhang, Wanglin Chen, Chengyong Wang. High-speed milling of hardened steel under minimal quantity lubrication with liquid nitrogen. Journal of Manufacturing Processes, 2023, 95(9): 351-368. (中科院SCI二区)

[3]      Shixiong Wu*, Xiang Gong, Yongqian Ni, Wanglin Chen, Chengyong Wang. Material removal and surface damage in high-speed grinding of enamel. Journal of the Mechanical Behavior of Biomedical Materials, 2022, 136: 105532. (中科院SCI二区)

[4]      Shixiong Wu*, Guangdong Liu, Wenfeng Zhang, Wanglin Chen, Chengyong Wang. Formation mechanism of white layer in the high-speed cutting of hardened steel under cryogenic liquid nitrogen cooling. Journal of Materials Processing Technology, 2022, 302: 117469. (中科院SCI)

[5]      Shixiong Wu*Hongchang Liao Suyang LiJundong BiZhiyang Li. High-speed milling of hardened mold steel P20 with minimum quantity lubrication. International Journal of Precision Engineering and Manufacturing-Green Technology, 2021, 8: 1551-1569. (中科院SCI二区)

[6]      吴世雄*, 倪湧潜, 王成勇, . 牙釉质表面高速铣削机理研究. 机械工程学报, 2021, 57(11): 78-92. (中文TOP)

[7]      Shixiong Wu*Jundong BiZhiyang LiHongchang LiaoLijuan Zheng. Feasibility study of oil-on-water cooling in high-speed end milling of hardened steel. The International Journal of Advanced Manufacturing Technology, 2020, 107: 271-292. (中科院SCI)

[8]      Shixiong Wu*, Fenglin Zhang, Yongqian Ni, Feng Chen, Zhiqiao Yan. Grinding of alumina ceramic with microtextured brazed diamond end grinding wheels. Ceramics International, 2020, 46: 19767-19784. (中科院SCI)

[9]      Shixiong Wu*, Kangqing Li, Wenzhong Zhu, Chengyong Wang, Wanglin Chen. Machinability of high-speed enamel cutting with carbide bur. Journal of the Mechanical Behavior of Biomedical Materials, 2020, 103: 103529. (中科院SCI二区)

[10]   Shixiong Wu*Zhenyu ZhaoCheng Yong WangYingxing Xie, Wei Ma. Optimization of toolpath with circular cycle transition for sharp corners in pocket milling. The International Journal of Advanced Manufacturing Technology, 2016, 86: 2861-2871. (中科院SCI)

[11]   Shixiong Wu*Zhiyang Li, Chengyong Wang, Suyang Li, Wei Ma. Tool wear of corner continuous milling in deep machining of hardened steel pocket. The International Journal of Advanced Manufacturing Technology, 2018, 97: 1315-1333. (中科院SCI) 

[12]   Shixiong Wu*Wei Ma, Bin Li, Chengyong Wang. Trochoidal machining for the high-speed milling of pockets. Journal of Materials Processing Technology, 2016, 233: 29-43. (中科院SCI)

[13]   Shixiong Wu*, Bin Li, Wei Ma. Research on cutting force of corner milling of inclined plane. Key Engineering Materials, 2015, 693: 856-862.(EI)

[14]   Li kaizhu, Wu shixiong*. Tool path optimization based on the constrain of radial cutting depth in high speed milling. Advanced Materials Research. 314-316: 1734-1739, 2011.

[15]   Shixiong Wu*, Guangdong Liu, Wenfeng Zhang, Chengyong Wang. Chip Formation and Tool Wear in High-speed Cutting of Hardened Steels under Cryogenic Liquid Nitrogen Cooling. Chinese mechanical engineering, 2022, 33(05): 551-559. (中国机械工程,EI)

[16]   Suyang Li, Jianbo Sui, Feng Ding, Shixiong Wu, Wanglin Chen, Chengyong Wang. Optimization of milling aluminum alloy 6061-t6 using modified johnson-cook model. Simulation Modelling Practice and Theory, 2021,111(9-12): 102330. (中科院SCI二区)

[17]   Fenglin Zhang, Genwei Huang, Jiameng Liu, Zhijun Du, Shixiong Wu, Chengyong Wang. Grinding performance and wear of metal bond super-abrasive tools in grinding of zr-based bulk metallic glass. International Journal of Refractory Metals and Hard Materials, 2021, 97(9): 105501. (中科院SCI)

[18]   Kaijiang LiYan-ling LiaoYumei ZhouFenglin ZhangJiangwen LiuShi-xiong Wu*. Study on grinding of SiCp/Al composites by micro-textured monolayer brazed diamond wheel. The International Journal of Advanced Manufacturing Technology, 2023, 126(9-10), 4607-4615. (中科院SCI)

[19]   Ming-cong Li, Fengli Zhang, Yumei Zhou, Wei-xiong Li, Shixiong Wu. Preparation and performance of resin-bonded grinding wheel with braze-coated diamond grits. Diamond and Related Materials, 2020, 101: 107619. (中科院SCI二区)

[20]   Wu Shixiong*Wang Chengyong, Fan Jingming. Generate rough tool-paths from unorganized point-cloud directly. 机械工程学报英文版, 2007, (05):1-4.

[21]   吴世雄*,王成勇.散乱噪声点云的数据分割[J]. 机械工程学报, 2007, (02):230-233.(中文TOP)

[22]   Wu ShixiongWang ChengyongChen Zichen. Generate triangulated surfaces from massive unorganized points. 机械工程学报英文版, 2006, (01):93-95.(中科院SCI)

[23]   Wu Shixiong, Wang Wen, Chen Zichen. Adaptive measurement method based on changing curvature for unknown free-form surface. 机械工程学报英文版, 2004, (03):385-388.(中科院SCI)

[24]   Wang Wen, Wu Shixiong, Chen Zichen. Research on adaptive data compression method for triangulated surfaces. 机械工程学报英文版, 2004, (02):189-192.(中科院SCI)

[25]   吴世雄,王文,陈子辰.大规模扫描测点的自适应数据压缩[J].浙江大学学报(工学版), 2004(09):99-102.

 

地址:广州市番禺区广州大学城外环西路100号广东工业大学行政楼325    邮编:510006

电话:020-39322722    邮箱:yzb@gdut.edu.cn  粤ICP备05008833号