汪延成

教授、博导

浙江省先进制造技术重点实验室副主任

办公电话：13675828104

通讯地址：浙江大学紫金港校区开物苑3-309

电子邮件：yanchwang@zju.edu.cn

个人主页：http://mypage.zju.edu.cn/yanchwang

一、教育工作经历

2020.12至今          浙江大学  机械工程学院  制造技术及装备自动化研究所  教授

2015.12-2020.12   浙江大学  机械工程学院  制造技术及装备自动化研究所  副教授

2014.03-2015.12   浙江大学  机械工程学院  制造工程及自动化研究所  讲师

2011.09-2014.02   美国密西根大学  吴贤铭制造研究中心(WuMRC)      博士后

2005.09-2010.12   浙江大学  机械工程学院   博士

二、研究方向

1. 生机电触觉感知系统

2. 微制造技术

三、奖励荣誉

1.2018年，制造工程师学会(Society of Manufacturing Engineers, SME)杰出青年制造工程师奖(Marcus B. Crotts Outstanding Young Manufacturing Engineer Award), SME网站链接：http://www.sme.org/2018-outstanding-young-manufacturing-engineers/；

2.2017年，浙江省151人才工程第三层次；

3.2016年，陆增祺FPTC高科技奖励基金“优秀论文奖”；

4.2016年，国家自然科学基金委ICFDM2016国际学术会议“优秀论文奖”；

5.2015年，国家自然科学基金委机械工程学科"优秀结题项目奖"；

6.2015, Best Paper Award, 2015 International Conference on Wearable Sensor and Robotics, ICWSR2015, Hangzhou, China.

7.2015, Best Oral Session Paper Award, 2014 KSMTE International Conference of Manufacturing Technology Engineers (ICMTE), Jeju KAL Korea.

8.2014, Best Paper Award, 2014 IEEE International Conference on Information and Automation, ICIA2014, China.

9.2014, Best Paper Finalists, 2014 IEEE International Conference on Information and Automation, ICIA2014, China.

10.2013, Best Paper Award, 2013 ASME International Manufacturing Science and Engineering Conference, MSEC2013, Madison, Wisconsin.

11.2017年，首届中国机械行业卓越工程师教育联盟“恒星杯”毕业设计大赛银奖指导教师（学生：邓兆兴）

四、学术兼职

1.中国机械行业卓越工程师教育联盟，全国机械制造教学研究会，常务理事

2.ASME、IEEE、SME会员

3.Co-Organizer: Symposium on Advances in Analysis, Design, and Manufacturing of Biomedical Devices, 2018 ASME MSEC Conference.

4.Organizer: Symposium on Advances in Analysis, Design, and Manufacturing of Biomedical Devices and Products, 2019 ASME MSEC Conference.

5.Organizer: Symposium on Advances in Manufacturing Processes of Biomedical Materials and Products, 2014 ASME MSEC Conference.

6.Co-Organizer, Symposium on Design, Modeling and Intelligent Control for Biomedical and Surgical Robotic Systems, 2017 IEEE CASE Conference. 

7.Organized Session Chair on Wearable Sensors and Signal Processing, 2015 International Conference on Wearable Sensor and Robotics, ICWSR2015, Hangzhou, China.

五、科研项目

[1]国家自然科学基金面上项目，智能假肢手物体抓握过程中的滑移产生机理及其检测技术研究；

[2]国家自然科学基金青年项目，仿生皮肤柔性触觉敏感构件与微接触印刷制造方法研究；

[3]浙江省杰出青年项目，智能机器人的全柔性多模态触觉感知系统设计及共融交互研究；

[4]浙江省重点研发计划项目，高性能车用质子交换膜氢燃料电池电堆关键技术研究。

六、发表论文

代表性论文

[1]Wang, Y.C.*, Guo, X.T., Shi, Y.G., Mei, D.Q. Self-powered wearable ultraviolet index detector using a flexible thermoelectric generator, Journal of Micromechanics and Microengineering, 2019, 29: 045002-8.

[2]Xue, D.,Wang, Y.C.*, Mei, D.Q. Multi-step exposure method for improving structure flatness in digital light processing-based printing, Journal of Manufacturing Processes, 2019, 39: 106-113.

[3]Zhu, L.F., Wang, Y.C.*, Mei, D.Q., Wu, X., Highly Sensitive and Flexible Tactile Sensor Based on Porous Graphene Sponges for Distributed Tactile Sensing in Monitoring Human Motions, IEEE Journal of Microelectromechanical Systems, 2019, 28(1): 154-163.

[4]Shi, Y.G., Wang, Y.C.*, Mei, D.Q., Chen, Z.C., 2018, Wearable Thermoelectric Generator With Copper Foam as the Heat Sink for Body Heat Harvesting, IEEE Access, 6: 43602-43611.

[5]Wang, Y.C., Huang, L.X., Mei, D.Q., Feng, Y.B., Qian, M., 2018, Numerical modeling of microchannel reactor with porous surface microstructure based on fractal geometry, International Journal of Hydrogen Energy, 43(49): 22447-22457. 

[6]Xue, D., Wang, Y.C.*, Zhang, J., Mei, D.Q., Wang, Y., Chen, S.C., 2018, Projection-based 3D printing of cell patterning scaffolds with multi-scale channels, ACS Applied Material & Interface, 10(23): 19428-19435.

[7]Wang, Y.C., Shi, Y.G., Mei, D.Q., Chen, Z.C., 2018, Wearable Thermoelectric Generator to Harvest Body Heat for Powering a Miniaturized Accelerometer, Applied Energy, 215: 690-698.

[8]Shi, Y.Q., Wang, Y.C.*, Mei, D.Q., Chen, Z.C., 2018, Numerical Modeling of the Performance of Thermoelectric Module with Polydimethylsiloxane Encapsulation, International Journal of Energy Research, 42:1287-1297. 

[9]Wang, Y.C., Xue, D., Mei, D.Q., 2018, Patterned Microstructure Array Fabrication by Using a Novel Standing Surface Acoustic Wave Device, ASME Journal of Micro- and Nano-Manufacturing, 6(2):021002-7.

[10]Wang, Y.C., Liang, G.H., Mei, D.Q., Chen, Z.C., 2017, Flexible Tactile Sensor Array Mounted on the Curved Surface: Analytical Modeling and Experimental Validation, IEEE Journal of Microelectromechanical Systems, 26(5): 1002-1011.

[11]Wang, Y.C., Shi, Y.Q., Mei, D.Q., Chen, Z.C., 2017, Wearable Thermoelectric Generator for Harvesting Heat on the Curved Human Wrist, Applied Energy, 205: 710-719.

[12]Wang, Y.C., Li, W.S., Han, P.D., Giovannini, M., Ehmann, K., Shih, A., 2016, Contributions in medical needle technologies- geometry, mechanics, design and manufacturing, Machining Science and Technology, 20(1): 1-43.

[13]Wang, Y.C., Xi, K.L., Mei, D.Q., Liang, G.H., Chen, Z.C., 2016, A Flexible Tactile Sensor Array based on Pressure Conductive Rubber for Contact Force Measurement and Slip Detection, Journal of Robotics and Mechatronics, 7: 378-385.

[14]Liang, G.H., Wang, Y.C., Mei, D.Q., Xi, K.L., Chen, Z.C., 2016, An analytical model for studying the structural effects and optimization of a capacitive tactile sensor array, Journal of Micromechanics and Microengineering, 26: 045007.

[15]Mei, D.Q., Xue, D., Wang, Y.C., Chen, S.C., 2016, Undulate microarray fabrication on polymer film using standing surface acoustic waves and ultraviolet polymerization, Applied Physics Letters, 108: 241911-4.

[16]Wang, Y.C., Chen, R.K., Tai, B.L., Shih, A.J., 2015, Study of the guidewire suturing of soft tissue using a haptic position measurement system, ASME Journal of Biomechanical Engineering, 137: 041004.

[17]Luo, Y., Wang, Y.C., Tai, B.L., Shih, A.J., 2015, Bone Geometry on the Contact Stress in the Shoulder for Evaluation of Pressure Ulcers: Finite Element Modeling and Experimental Validation, Medical Engineering & Physics, 37: 187-194.

[18]Liang, G.H., Wang, Y.C., Mei, D.Q., Xi, K.L., Chen, Z.C., 2015, Flexible capacitive tactile sensor array with pyramid array for three-axis force measurement. IEEE Journal of Microelectromechanical Systems, 24: 1510-1519.

[19]Liang, G.H., Wang, Y.C., Mei, D.Q., Xi, K.L., Chen, Z.C., 2015, A modified analytical model to study the sensing performance of a flexible capacitive tactile sensor array. Journal of Micromechanics and Microengineering, 25: 035017.

[20]Wang, Y.C., Li, W.S., Shih, A.J., 2014, Characterization of the nonwoven polishing wheel topography by nano-CT scanning, CIRP Annuals- Manufacturing Technology, 63: 541-544.

[21]Wang, Y.C., Chen, R.K., Tai, B.L., Shih, A.J., 2014, Optimal needle design for minimal insertion force and bevel length, Medical Engineering & Physics, 36: 1093-1100.

[22]Wang, Y.C., Tai, B.L., Yu, H.W., Shih, A.J., 2014, Silicone-based tissue-mimicking phantom for needle insertion simulation. ASME Journal of Medical Devices, 8: 021001-7.

[23]Wang, Y.C., Tai, B.L., Chen, R.K., Shih, A.J., 2013, The Needle with Lancet Point – Geometry for Needle Tip Grinding and Tissue Insertion Force, ASME Journal of Manufacture Science and Engineering, 135: 041010.

[24]Wang, Y.C., Spangler, C., Tai, B.L., Shih, A.J., 2013, Positional Accuracy and Transmitter Orientation Sensitivity of the 3D Electromagnetic Tracking System, Measurement Science and Technology, 24: 105105.

[25]Wang, Y.C., Tai, B.L., Van Loon, M., Shih, A.J., 2012, Grinding the Sharp Tip in Thin NiTi and Stainless Steel Wires, International Journal of Machine Tools and Manufacture, 62: 53-60.

[26]Wang, Y.C., Mei, D.Q., Chen, Z.C., 2011, Piezoresistive slot-cantilever type accelerometer inspired from spider’s slit sensilla. Sensor Letters, 9: 1309-1315.

七、专利成果

[1]汪延成，梁观浩，梅德庆，席凯伦，陈子辰，基于电容与压敏橡胶组合的三维力触觉传感单元，国家发明专利，201410610855.6，已授权，授权时间：2016-6-29.

[2]汪延成，席凯伦，梅德庆，梁观浩，陈子辰，基于压敏导电橡胶的柔性触滑觉复合传感阵列，国家发明专利，201410451649.5，已授权，授权时间：2016-11-07.

[3]汪延成，席凯伦，梅德庆，梁观浩，陈子辰，假肢手穿戴式柔性触觉传感器及其触觉检测系统，国家发明专利，201410634475.6，已授权，授权时间：2016-10-10.

[4]汪延成 薛岱 梅德庆 邓兆兴。具有超声能场辅助的三维微结构快速成形方法及装置，专利申请号：201611180498.X。

[5]梅德庆，薛岱，汪延成，谢扩，陈子辰，基于超声驻波场的包覆压电单元薄膜的制造方法及装置，发明专利授权号：201610017743.9，授权时间：2017.11.24

[6]梅德庆，史尧光，汪延成，刘海燕，姚喆赫，陈子辰. 具有可延展导线的穿戴式柔性温差发电结构. 国家发明专利, 授权号: 201510915285.6，授权时间：2017.11.24

[7]梅德庆，梁观浩，汪延成，席凯伦，陈子辰，基于螺旋线的分布电容式柔性触觉传感阵列，国家发明专利，专利号：201410246264.5，授权时间：2016.8.24

[8]梅德庆，倪虹，汪延成，陈子辰.具备轮动功能的弹跳机器人，国家发明专利：201310087552.6，，授权时间：2015-07-15.

[9]梅德庆，戴宇，梁观浩，汪延成，陈子辰.一种磁力控制的墨水渗透式微接触印刷装置.国家发明专利：201210087861，授权时间：2014-01-29.

[10]梅德庆，梁观浩，汪延成，戴宇，陈子辰.基于压阻式和电容式组合的仿生柔性触觉传感阵列.国家发明专利：201210037651，授权时间：2013-10-23.

[11]梅德庆，倪虹，汪延成，甄永乾，陈子辰.落地自适应多功能跳跃机器人.国家发明专利：CN201110361030.1，授权时间：2013-04-24.

[12]梅德庆，甄永乾，汪延成，倪虹，陈子辰基于转动盘圆柱销驱动机构的跳跃机器人，国家发明专利：201110220644.8，授权时间：2012-10-17.

[13]梅德庆，薛岱，汪延成，陈子辰，基于声表面波的柔性微米线电极的制造方法及装置，发明专利申请号：201610018424.X