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王伟 |
副教授 硕士生导师 |
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邮箱:wangwei88@upc.edu.cn电话:15806644023办公地点:工科楼E725 |
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2007.09-2011.06 |
山东大学机械设计制造及其自动化专业,工学学士 |
2012.09-2017.09 |
山东大学机械设计制造及其自动化专业,工学博士 |
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2011.07-2012.08 |
保留研究生入学资格赴山西省灵丘县平型关中学支教 |
2017.11-2020.11 2020.12-至今 |
中国石油大学(华东),机电工程学院,讲师 中国石油大学(华东),机电工程学院,副教授 |
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[1]研究领域:光学元件的智能制造与超精密检测 [2]招生方向:机械制造及其自动化、工业设计 |
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[1]工程制图 [2]设计力学 [3]智能化集成制造系统 |
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[1]山东省自然科学基金重大基础研究项目子课题,石英玻璃光学元件超精密模压及其玻璃碳模具制造关键科学问题研究,2024.01-2026.12 [2]国家自然科学基金,光学玻璃的多尺度力学响应机理及表面质量主动控制磨削工艺基础研究,2020.01-2022.12 [3]山东省自然科学基金,光学玻璃的多尺度力学响应及低损伤精密磨削机理研究,2019.07-2022.06 [4]青岛市源头创新计划应用基础研究专项,光学玻璃自由曲面微透镜的超精密磨削机理及误差补偿技术研究,2018.01-2019.12 [5]高效洁净机械制造教育部重点实验室开放基金,非晶光学材料的精密微细切削机理研究,2018.06-2020.05 |
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[1]Wei Wang*;Zhen Zhang; Peng Yao; et al, Envelope grinding of micro-cylinder array lenses using a near arc-profile wheel without on-machine precision truing, Journal of Materials Processing Technology, 2021, 289: 116927 [2]Wei Wang*;Zhipeng Li; Peng Yao; et al, Sink-in/pile up formation and crack nucleation mechanisms of high purity fused silica and soda-lime silica glass during nanoindentation experiments, Ceramics International, 2020, 46(15): 24698-24709 [3]Wei Wang*;Zixin Wang; Peng Yao; et al, Ductile-brittle transition mechanisms of amorphous glass subjected to taper grinding experiment, Ceramics International, 2021, 47(2): 1844-1854 [4]Wei Wang;Peng Yao*; Jun Wang*; et al, Crack-free ductile mode grinding of fused silica under controllable dry grinding conditions, International Journal of Machine Tools and Manufacture, 2016.10, 109: 126~136 [5]Wei Wang;Peng Yao*; Jun Wang*; et al, Elastic stress field model and micro-crack evolution for isotropic brittle materials during single grit scratching, Ceramics International, 2017.10.1, 43(14): 10726~10736 [6]Wei Wang;Peng Yao*; Jun Wang*; et al, Controlled material removal mode and depth of micro cracks in precision grinding of fused silica - A theoretical model and experimental verification, Ceramics International, 2017.10.15, 43(15): 11596~11609 [7]Wei Wang;Peng Yao*; Chengwu Li; et al, Dressing of diamond grinding wheels by abrasive water jet for freeform optical surface grinding, 7th International Symposium on Advanced Optical Manufacturing and Testing Technologies: Advanced Optical Manufacturing Technologies, AOMATT 2014, Harbin, China, 2014.4.26-2014.4.29 [8]王伟;姚鹏*;王军;等,石英玻璃的热辅助高效塑性域干磨削,光学精密工程, 2016.1.15, (01): 83~93 [9]姚鹏* ;王伟**;黄传真;等,石英玻璃的单颗磨粒划擦应力场解析模型及损伤可控磨削机理研究,机械工程学报, 2018 (54): 191-204 [10] Jiahao Zhu; Peng Yao*;Wei Wang**; Chuanzhen Huang; Hongtao Zhu; Bin Zou; Hanlian Liu, A helical interpolation precision truing and error compensation for arc-shaped diamond grinding wheel, The International Journal of Advanced Manufacturing Technology, 2019.1, 100(1): 167~177 [11] Shimeng Yu; Peng Yao; Jimiao Xu;Wei Wang;et al, Chuanzhen Huang; Profile error compensation in ultra-precision grinding of aspherical-cylindrical lens array based on the real-time profile of wheel and normal residual error, Journal of Materials Processing Technology, 2023, 312:117849. [12] Shimeng Yu; Peng Yao; Zhen Ye;Wei Wang;et al, Simulation and Experimental Research of Tool Path Planning on Profile and Surface Generation of Aspherical-cylindrical Lens Array by Ultra-precision Envelope Grinding, Journal of Materials Processing Technology, 2022, 307(2):117690-117690. |
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[1]王伟,姚鹏,黄传真,等.利用未修整近圆弧截面砂轮磨削自由曲面的方法, 2018.3.30,中国,申请号2018 1 0292313.7 [2]王伟;张瀚文;刘旭堂;等,利用斜交修整轮修整椭圆截面砂轮的修整装置及方法, 2018.5.30,中国,申请号2018 1 0542315.7 [3]王伟;姚鹏;黄传真;等,利用圆弧阵列砂轮磨削高次曲线截面柱面阵列结构的方法, 2018.6.12,中国,申请号2018 1 0602853.0 [4]姚鹏;王少凡;王伟;等,利用滚轮修整复杂截面超硬磨料砂轮的方法、装置及机床, 2016.3.3,中国, ZL201610120685.2 [5]姚鹏;王伟;黄传真;等,一种切向自激振动辅助干磨削系统及方法, 2016.8.23,中国, ZL201610704165.6 [6]姚鹏;王伟;黄传真;等,红外透射光学材料机械加工温度场可视化测量装置及方法, 2016.1.15,中国, ZL201610029001.8 [7]姚鹏;王伟;黄传真;等,一种自发热辅助高效延性域超精密磨削石英玻璃的方法, 2015.4.23,中国, ZL201510203214.3 [8]姚鹏;王伟;黄传真;等,基于激光裂纹预修复的石英玻璃延性域磨削方法, 2014.12.5,中国, ZL201410738040.6 [6]张芬娜等,一种煤层气井不停井射孔孔眼疏通装置; |
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[1] 2020年,中国石油大学(华东)青年教师讲课比赛 一等奖 [2] 2018年,第八届上银优秀机械博士论文奖 优秀奖 [3] 2017年,山东省优秀毕业生 [4] 2016年,博士研究生国家奖学金 [5] 2015年,中国磨粒技术学术会议优秀论文奖 |
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