|
|
更新时间:2024.08.20
总访问量:10
|
王旭| 博士 副研究员 硕士生导师 |
|
单位: 职务: 研究方向: 办公地址: 屏峰校区计算机楼D205 办公电话: 85290933 电子邮箱: wx382935877@163.com |
|
手机访问 |
本科生课程:
数控技术,互换性和测量技术
研究生课程:
纳米科学技术,精密和超精密加工技术
(1)国家自然科学基金青年基金项目(51805485):介电泳辅助水溶解 KDP晶体高效超精密抛光方法研究,资助金额:24万,主持
(2)浙江省自然科学基金探索项目(LY21E050010):大尺寸水溶性晶体逐点可控微纳溶解-介电泳复合抛光方法,资助金额:10万,主持
(3)中国博士后科学基金(二等)(2019M652138):介电泳作用下 KDP晶体水溶解抛光超光滑表面形成机理,资助金额:8万,主持
(4)浙江省团队科技特派员结对服务计划项目:浙江省新昌轴承产业创新服务综合体,资助金额:30万,主持
(5)国家自然科学基金重点项目(51935008):轴承滚子高精度创成理论与实现方法研究,资助金额:300万,参与(本人排名:4/10)
(6)国家重点研发计划课题(2018YFB2000402):高表面质量套圈滚道超精密加工技术与装备,资助金额 309万,参与(本人排名:8/34)
(7)NSFC-浙江两化融合联合基金(U1809221):高端滚动轴承智能设计与制造关键技术及服役可靠性研究,资助金额:200万,参与(本人排名:10/10)
(8)国家自然科学基金重点项目(51135002):大口径 KDP 光学晶体元件逐点可控微纳潮解抛光新原理与新技术,资助金额:290万,参与(本人排名: 9/10)
代表性论文、专利、论著:
(1) Huang L, Wang X*, Chen F, et al. Anhydros-based shear-thickening ultra-precision polishing of KDP crystal[J]. The International Journal of Advanced Manufacturing Technology. 2023, 125: 3103-3115.
(2) Wang X, Gao H, Deng Q, et al. Effect of wetting characteristics of polishing fluid on the quality of water-dissolution polishing of KDP crystals[J]. Micromachines. 2022, 13(4): 535.
(3) Guo L, Wang X*, Lyu B, et al. Shear-thickening polishing of inner raceway surface of bearing and suppression of edge effect[J]. The International Journal of Advanced Manufacturing Technology. 2022, 121(5-6): 4055-4068.
(4) Xu Wang, Hang Gao, Julong Yuan. Experimental investigation and analytical modelling of the tool influence function of the ultra-precision numerical control polishing method based on the water dissolution principle for KDP crystals. Precision Engineering. 2020, 65: 185-196.
(5) 王旭,赵萍,吕冰海,袁巨龙. 滚动轴承工作表面超精密加工技术研究现状. 中国机械工程. 2019, 30(11): 1301-1309.
(6) Xu Wang, Hang Gao, Yuchuan Chen, Dongming Guo. A water dissolution method for removing micro-waviness caused by SPDT process on KDP crystals. International Journal of Advanced Manufacturing Technology. 2016, 85(5): 1347-1360.
(7) Hang Gao, Xu Wang, Dongming Guo, Yuchuan Chen. Research progress on ultra-precision machining technology for brittle and soft crystal materials. Frontiers of Mechanical Engineering. 2017, 12(1): 77-88.
(8) Hang Gao, Xu Wang, Xiaoji Teng, Dongming Guo. Micro water dissolution machining principle and its application in ultra-precision processing of KDP optical crystal. Science China Technological Sciences. 2015, 58(11): 1877-1883.
(9) 缪跃琼,王旭*,邓乾发,等. 介电泳辅助水溶解抛光过程中微水滴分布的仿真与实验研究[J]. 表面技术. 2021, 50(10): 373-383.
(10) 王旭, 高航, 陈玉川, 滕晓辑. 微纳水溶解抛光工艺参数对KDP晶体表面粗糙度影响的试验研究. 人工晶体学报. 2015, 44(10): 2702-2707.
(11) Xu Wang, Hang Gao, Dongming Guo, Yuchuan Chen. Experimental study on micro-deliquescence ultra-precision polishing with fine water mist for KDP crystal. Advanced Materials Research. 2013, 797: 423-427.
(12) Xu Wang, Hang Gao, Julong Yuan. Study on the Tool Influence Function of Ultra-Precision Numerical Control Polishing Method Based on Water Dissolution Principle for KDP Crystal. The 15th CJUMP (China-Japan International Conference on Ultra-Precision Machining Process), 2019. Maebashi, Japan. Oral Presentation
(13) Qiu W, Wang X, Chen H, et al. Probing the stochastic behavior of the onset of plasticity for potassium dihydrogen phosphate single crystal by grating spherical nanoindentation[J]. Ceramics International. 2022, 48(19): 28374-28381.
(14) Yuchuan Chen, Hang Gao, Xu Wang, Dongming Guo, Ziyuan Liu. Laser induced damage of potassium dihydrogen phosphate (KDP) optical crystal machined by water dissolution ultra-precision polishing method. Materials. 2018, 11(3): 419.
(15) Yuchuan Chen, Hang Gao, Xu Wang, et al. Investigation on the cleaning of KDP ultra-precision surface polished with micro water dissolution machining principle. Science China Technological Sciences. 2017, 60(1): 27-35.
(16) 王旭, 郭路广, 王思学, 袁巨龙. 圆柱零件清洗方法及设备. CN 202010184373.X (发明专利)
(17) 高航, 王旭, 陈玉川, 郭东明. 一种 KDP 晶体表面微纳纹理的无损伤数控 水溶解抛光去除方法. ZL 201510480631.2 (发明专利)
(18) 高 航 , 王 旭 . 一 种 贴 片 陶 瓷 微 电 子 元 件 基 片 自 动 分 割 装 置 . ZL 201010199487.2 (发明专利)
(19) 郭东明, 高航, 王旭, 康仁科, 张和平. 基于超声雾化水汽的 KDP 晶体微纳 潮解超精密抛光方法. ZL 201210111555.4 (发明专利)
(20) 郭东明, 高航, 康仁科, 王旭. 自清洁磨抛工具. ZL 201210111544.6 (发明 专利)
(21) 高航, 陈玉川, 王旭, 郭东明. 一种光学元件挥发溶剂循环回收利用的自动清洗方法: 中国. CN 201710146670.8. (发明专利)
奖励和荣誉(省部级及以上):
机械工业联合会科技进步二等奖:高效高精成型磨削用长寿命砂轮关键技术开发及应用,2023,本人排名:3/10
河南省科技进步三等奖:精密成型磨削用长寿命CBN砂轮及其高效磨削技术与应用,2022,本人排名:3/9
浙江省科学技术进步二等奖:基于智能制造的高端汽车轴承关键技术及应用,2018,本人排名:7/9
本科生课程:
数控技术,互换性和测量技术
研究生课程:
纳米科学技术,精密和超精密加工技术
(1)国家自然科学基金青年基金项目(51805485):介电泳辅助水溶解 KDP晶体高效超精密抛光方法研究,资助金额:24万,主持
(2)浙江省自然科学基金探索项目(LY21E050010):大尺寸水溶性晶体逐点可控微纳溶解-介电泳复合抛光方法,资助金额:10万,主持
(3)中国博士后科学基金(二等)(2019M652138):介电泳作用下 KDP晶体水溶解抛光超光滑表面形成机理,资助金额:8万,主持
(4)浙江省团队科技特派员结对服务计划项目:浙江省新昌轴承产业创新服务综合体,资助金额:30万,主持
(5)国家自然科学基金重点项目(51935008):轴承滚子高精度创成理论与实现方法研究,资助金额:300万,参与(本人排名:4/10)
(6)国家重点研发计划课题(2018YFB2000402):高表面质量套圈滚道超精密加工技术与装备,资助金额 309万,参与(本人排名:8/34)
(7)NSFC-浙江两化融合联合基金(U1809221):高端滚动轴承智能设计与制造关键技术及服役可靠性研究,资助金额:200万,参与(本人排名:10/10)
(8)国家自然科学基金重点项目(51135002):大口径 KDP 光学晶体元件逐点可控微纳潮解抛光新原理与新技术,资助金额:290万,参与(本人排名: 9/10)
代表性论文、专利、论著:
(1) Huang L, Wang X*, Chen F, et al. Anhydros-based shear-thickening ultra-precision polishing of KDP crystal[J]. The International Journal of Advanced Manufacturing Technology. 2023, 125: 3103-3115.
(2) Wang X, Gao H, Deng Q, et al. Effect of wetting characteristics of polishing fluid on the quality of water-dissolution polishing of KDP crystals[J]. Micromachines. 2022, 13(4): 535.
(3) Guo L, Wang X*, Lyu B, et al. Shear-thickening polishing of inner raceway surface of bearing and suppression of edge effect[J]. The International Journal of Advanced Manufacturing Technology. 2022, 121(5-6): 4055-4068.
(4) Xu Wang, Hang Gao, Julong Yuan. Experimental investigation and analytical modelling of the tool influence function of the ultra-precision numerical control polishing method based on the water dissolution principle for KDP crystals. Precision Engineering. 2020, 65: 185-196.
(5) 王旭,赵萍,吕冰海,袁巨龙. 滚动轴承工作表面超精密加工技术研究现状. 中国机械工程. 2019, 30(11): 1301-1309.
(6) Xu Wang, Hang Gao, Yuchuan Chen, Dongming Guo. A water dissolution method for removing micro-waviness caused by SPDT process on KDP crystals. International Journal of Advanced Manufacturing Technology. 2016, 85(5): 1347-1360.
(7) Hang Gao, Xu Wang, Dongming Guo, Yuchuan Chen. Research progress on ultra-precision machining technology for brittle and soft crystal materials. Frontiers of Mechanical Engineering. 2017, 12(1): 77-88.
(8) Hang Gao, Xu Wang, Xiaoji Teng, Dongming Guo. Micro water dissolution machining principle and its application in ultra-precision processing of KDP optical crystal. Science China Technological Sciences. 2015, 58(11): 1877-1883.
(9) 缪跃琼,王旭*,邓乾发,等. 介电泳辅助水溶解抛光过程中微水滴分布的仿真与实验研究[J]. 表面技术. 2021, 50(10): 373-383.
(10) 王旭, 高航, 陈玉川, 滕晓辑. 微纳水溶解抛光工艺参数对KDP晶体表面粗糙度影响的试验研究. 人工晶体学报. 2015, 44(10): 2702-2707.
(11) Xu Wang, Hang Gao, Dongming Guo, Yuchuan Chen. Experimental study on micro-deliquescence ultra-precision polishing with fine water mist for KDP crystal. Advanced Materials Research. 2013, 797: 423-427.
(12) Xu Wang, Hang Gao, Julong Yuan. Study on the Tool Influence Function of Ultra-Precision Numerical Control Polishing Method Based on Water Dissolution Principle for KDP Crystal. The 15th CJUMP (China-Japan International Conference on Ultra-Precision Machining Process), 2019. Maebashi, Japan. Oral Presentation
(13) Qiu W, Wang X, Chen H, et al. Probing the stochastic behavior of the onset of plasticity for potassium dihydrogen phosphate single crystal by grating spherical nanoindentation[J]. Ceramics International. 2022, 48(19): 28374-28381.
(14) Yuchuan Chen, Hang Gao, Xu Wang, Dongming Guo, Ziyuan Liu. Laser induced damage of potassium dihydrogen phosphate (KDP) optical crystal machined by water dissolution ultra-precision polishing method. Materials. 2018, 11(3): 419.
(15) Yuchuan Chen, Hang Gao, Xu Wang, et al. Investigation on the cleaning of KDP ultra-precision surface polished with micro water dissolution machining principle. Science China Technological Sciences. 2017, 60(1): 27-35.
(16) 王旭, 郭路广, 王思学, 袁巨龙. 圆柱零件清洗方法及设备. CN 202010184373.X (发明专利)
(17) 高航, 王旭, 陈玉川, 郭东明. 一种 KDP 晶体表面微纳纹理的无损伤数控 水溶解抛光去除方法. ZL 201510480631.2 (发明专利)
(18) 高 航 , 王 旭 . 一 种 贴 片 陶 瓷 微 电 子 元 件 基 片 自 动 分 割 装 置 . ZL 201010199487.2 (发明专利)
(19) 郭东明, 高航, 王旭, 康仁科, 张和平. 基于超声雾化水汽的 KDP 晶体微纳 潮解超精密抛光方法. ZL 201210111555.4 (发明专利)
(20) 郭东明, 高航, 康仁科, 王旭. 自清洁磨抛工具. ZL 201210111544.6 (发明 专利)
(21) 高航, 陈玉川, 王旭, 郭东明. 一种光学元件挥发溶剂循环回收利用的自动清洗方法: 中国. CN 201710146670.8. (发明专利)
奖励和荣誉(省部级及以上):
机械工业联合会科技进步二等奖:高效高精成型磨削用长寿命砂轮关键技术开发及应用,2023,本人排名:3/10
河南省科技进步三等奖:精密成型磨削用长寿命CBN砂轮及其高效磨削技术与应用,2022,本人排名:3/9
浙江省科学技术进步二等奖:基于智能制造的高端汽车轴承关键技术及应用,2018,本人排名:7/9
链接 |
|
更新时间:2024.08.20
总访问量:10
|
