Faculty

WU Wenzheng

Professor

Email: wzwu@jlu.edu.cn

Website: https://teachers.jlu.edu.cn/WenzhengWu

Educational Background

2009.9 – 2010.10, Georgia Institute of Technology, Mechanical Engineering, Joint Ph.D.

2006.9 – 2011.7, Northeastern University, Mechanical Manufacturing and Automation, Ph.D.

Professional Experience

2018.10 – Present, Professor, School of Mechanical and Aerospace Engineering, Jilin University

2014.9 – 2018.9, Associate Professor, School of Mechanical and Aerospace Engineering, Jilin University

2013.5 – Present, Deputy Director, Department of Mechanical Manufacturing and Automation, School of Mechanical and Aerospace Engineering, Jilin University

2011.10 – 2017.7, Jilin University, Mechanical engineering, Postdoctor

2011.7 – 2014.9, Lecture, School of Mechanical and Aerospace Engineering, Jilin University

Research Interests

[1] Macro and micro additive manufacturing (3D printing) technology and equipment

[2] Advanced material additive manufacturing and new principles and technologies of additive manufacturing

[3] Smart material 4D printing

[4] Micro-nano additive manufacturing

[5] Intelligent precision manufacturing

[6] Ultrasonic additive manufacturing

[7] Metal additive/subtractive manufacturing

[8] Bionic additive manufacturing and medical rehabilitation engineering

Research Projects

[1] National Natural Science Foundation of China: Research on photoinduced electrode control field electrodeposition additive manufacturing mechanism of metallic glass 3D micro component, 2021.01-2024.12, PI.

[2] National Natural Science Foundation of China: Research on Acoustic Droplet Ejection Additive Manufacturing Mechanism of Metallic Glass Lattice Structure, 2017.01-2020.12, PI.

[3] National Natural Science Foundation of China: Research on the theory and key technology of artificial bone with bionic nanometer coating, 2013.01-2015.12, PI.

[4] National Natural Science Foundation of China, a key project sub-project: Integrated control theory of blade complex surface grinding and polishing integrated system, 2012.01-2016.12, PI.

[5] Specialized Research Fund for the Doctoral Program of Higher Education of China “SRFDP”: Basic research on artificial joints based on high polymer-based bioinspired materials, 2013.01-2015.12, PI.

[6] Key Scientific and Technological Research Project of Jilin Province: Research on the Key 3D Printing Technology and Equipment of High-performance Special Engineering Plastics, 2018.01-2020.12, PI.

[7] High-end technological innovation platform for automobile parts manufacturing technology and equipment of Jilin Province Colleges and Universities: Research on Additive Manufacturing of Complex Key Automobile Parts, 2015, PI.

[8] Jilin Province Special Industrial Innovation Project: Research on Equipment and Technology of Fiber Reinforced Thermoplastic Polyimide 3D Printing, 2019.01-2020.12, PI.

[9] Project of International Science and Technology Cooperation of Jilin Province: Additive Manufacturing of Bioceramics Modified PEEK Artificial Bone Scaffold and Its Biological Performance Evaluation, 2017.01-2019.12, PI.

[10] Scientific Research Fund for Youth of Jilin Province: Research on 3D Printing of biocompatible special engineering plastic bionic mandible, 2014.01-2016.12, PI.

Selected Publications

[1] P.Geng,J.Zhao,Z.W.Gao,W.Z.Wu,W.L.Ye,G.W.Li,H.Qu(2020).Effects of printing parameters on the mechanical properties of high performance polyphenylene sulfide 3D printing. 3D Printing and Additive Manufacturing. (SCI)

[2] X. Yang, W. Hu,W.Z.Wu , Z.F. Yin , L. Li. (2020). The fabrication of integrated and three-layer SU-8 nozzles for electrohydrodynamic printing. Microfluidics and Nanofluidics, 24(8). (SCI)

[3] X.F. Tang, Y.G Qin , X.Y. Xu, D.M. Guo, W.L. Ye, W.Z.Wu , R.Y. Li  (2019). Fabrication and In Vitro Evaluation of 3D Printed Porous Polyetherimide Scaffolds for Bone Tissue Engineering. BioMed Research International, 2019. (SCI)

[4] G.W. Li, J. Zhao, J. Y. H. Fuh, W.Z. Wu , J.L. Jiang, T.Q. Wang, S. Chang (2019). Experiments on the Ultrasonic Bonding Additive Manufacturing of Metallic Glass and Crystalline Metal Composite. Materials, 12(18), 2975.(SCI)

[5] S. Wang, P. Bai, M.Z. Sun, W. Liu, D.D. Li, W.Z. Wu, W.F. Yan, J. Shang, J.H. Yu (2019). Fabricating Mechanically Robust Binder-Free Structured Zeolites by 3D Printing Coupled with Zeolite Solder Strategy: A Superior Confguration for CO2 Capture. Advanced Science, 6(17). (SCI)

[6] W.L. Ye, W.Z. Wu , X. Hu, G.Q. Lin, J.Y. Guo, H. Qu, J. Zhao (2019). 3D printing of carbon nanotubes reinforced thermoplastic polyimide composites with controllable mechanical and electrical performance. Composites Science and Technology, 182. (SCI)

[7] W.L. Ye, G.Q. Lin, W.Z. Wu , P. Geng, X. Hu, Z.W. Gao, J. Zhao (2019). Separated 3D printing of continuous carbon fiber reinforced thermoplastic polyimide. Composites Part A: Applied Science and Manufacturing, 121:457-464. (SCI)

[8] W.Z. Wu, J.L. Jiang, G.W. Li , J.Y.H. Fuh, H. Jiang, P.W. Gou, L.J. Zhang, W. Liu, J. Zhao (2019). Ultrasonic additive manufacturing of bulk Ni-based metallic glass. Journal of Non-Crystalline Solids, 506: 1-5. (SCI)

[9] P. Geng, J. Zhao, W.Z. Wu , W.L. Ye, Y.L. Wang, S.B. Wang, S. Zhang (2019). Effects of extrusion speed and printing speed on the 3D printing stability of extruded PEEK filament. Journal of Manufacturing Processes, 37: 266-273. (SCI)

[10] W.Z. Wu, W. Liu, J.L. Jiang, J.R. Ma, G.W. Li, J. Zhao, D.Z. Wang, W.Z. Song* (2019). Preparation and Performance Evaluation of Silica gel/Tricalcium Silicate Composite Slurry for 3D Printing. Journal of Non-Crystalline Solids, 503-504: 334-339. (SCI)

[11] W.Z. Wu, W.L. Ye, P. Geng , Y.L. Wang, G.W. Li, X. Hu, J. Zhao (2018). 3D printing of thermoplastic PI and interlayer bonding evaluation. Materials Letters, 229: 206-209. (SCI)

[12] P. Geng, J. Zhao, W.Z. Wu , Y.L. Wang, B.F. Wang, S.B. Wang, G.W. Li (2018). Effect of Thermal Processing and Heat Treatment Condition on 3D Printing PPS Properties. Polymers, 10(8): 875. (SCI).

[13] Z.C. Wu, J. Zhao, W.Z. Wu , P.P. Wang, B.F. Wang, G.W. Li, S. Zhang (2018). Radial Compressive Property and the Proof-of-Concept Study for Realizing Self-expansion of 3D Printing Polylactic Acid Vascular Stents with Negative Poisson’s Ratio Structure. Materials, 11(8): 1357. (SCI).

[14] W.Z. Wu, W. Liu, H.D. Du, B.F. Wang, G.W. Li , B. Sun, S. Zhang, J. Zhao (2018). Optimization of sintering time and holding time for 3D printing of Fe-based metallic glasses. Metals, 8(6): 429. (SCI)

[15] W.Z. Wu, J.L. Jiang, H. Jiang, W. Liu, G.W. Li, B.F. Wang, M.X. Tang, J. Zhao (2018). Improving bending and dynamic mechanics performance of 3D printing through ultrasonic strengthening. Materials Letters, 220: 317-320. (SCI)

[16] W.Z. Wu, H.D. Du, H. Sui, B. Sun, B.F. Wang, Z.J. Yu, H. Ni, G.W. Li, J. Zhao (2018). Study of printing parameters of pneumatic-injection 3D printing of Fe-based metallic glass. Journal of Non-Crystalline Solids, 489: 50-56. (SCI)

[17] G.W. Li, J. Zhao, J.L. Jiang, H. Jiang,W.Z. Wu, M.X. Tang (2018). Ultrasonic strengthening improves tensile mechanical performance of fused deposition modeling 3D printing. International Journal of Advanced Manufacturing Technology, 96: 2747-2755. (SCI)

[18] G.W. Li, J. Zhao,W.Z. Wu, J.L. Jiang, B.F. Wang, H. Jiang, J. Y. H. Fuh (2018). Effect of Ultrasonic Vibration on Mechanical Properties of 3D Printing Non-Crystalline and Semi-Crystalline Polymers. Materials, 11(5): 826. (SCI)

[19] W.Z. Wu, H.D. Du, X.Y. Guo, B.F. Wang, G.W. Li, J. Zhao (2018). Printing parameters and strengthening mechanism of pneumatic injection additive manufacturing with iron powder slurry. International Journal of Advanced Manufacturing Technology, 94: 3809-3817. (SCI)

[20] W.Z. Wu, W.L. Ye, Z.C. Wu, P. Geng, Y.L. Wang, J. Zhao (2017). Influence of Layer Thickness, Raster Angle, Deformation Temperature and Recovery Temperature on the Shape-Memory Effect of 3D-Printed Polylactic Acid Samples. Materials, 10(8): 970. (SCI)

[21] W.Z. Wu, P. Geng, G.W. Li, D. Zhao, H.B. Zhang, J. Zhao (2015). Influence of Layer Thickness and Raster Angle on the Mechanical Properties of 3D-Printed PEEK and a Comparative Mechanical Study between PEEK and ABS. Materials, 8(9): 5834-5846. (SCI)

[22] W.Z. Wu, P. Geng, J. Zhao, Y. Zhang, D.W. Rosen, H.B. Zhang(2014). Manufacture and thermal deformation analysis of semicrystalline polymer polyether ether ketone by 3D printing. Materials Research Innovations, 18(S5): 12-16. (SCI)

Courses

[1] Equipment and Manufacturing System /1.5 credits/24 hours

[2] 3D printing and practice /1.5 credits/24 hours

[3] Macro and micro additive manufacturing /2.0 credits/32 hours

Patents and Applications

[1] 3D printing manufacturing method of tantalum-coated polyether ether ketone artificial bone scaffold, Wu Wenzheng, Zhao Ji, Geng Peng, Sun Huichao, Zhao Di, China, Invention Patent of the State Intellectual Property Office, ZL201410209408X.

[2] 3D printing manufacturing method of polyetheretherketone bionic artificial bone, Wu Wenzheng, Zhao Ji, Jiang Zhenhua, Zhang Haibo, Zhao Di, China, Invention Patent of the State Intellectual Property Office, ZL2013106755640.

[3] A rotating bookcase for the disabled, Wu Wenzheng, Wang Dingkang, Yu Danyang, Li Hui, Liu Yingwei, Lu Jun, China, Invention Patent of the State Intellectual Property Office, ZL2014101923254.

[4] A 3D printing method and device integrating the preparation and forming of amorphous alloy materials, Wu Wenzheng, Du Haidong, Guo Xiaoyu, Wang Bofan, Geng Peng, Li Guiwei, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201610244315.

[5] A 3D printing device and printing method based on electromagnetic emission technology, Wu Wenzheng, Li Guiwei, Liu Wei, Geng Peng, Wang Bofan, Wu Zichao, Zhao Ji, Ren Luquan, China, Invention Patent of the State Intellectual Property Office, ZL201610556007.

[6] Transition metal chemical vapor deposition micro-nano additive manufacturing device and method, Wu Wenzheng, Geng Peng, Ye Wenli, Jiang Jili, Liu Wei, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201610807912.9.

[7] Multi-directional ultrasonic droplet jet light curing additive manufacturing device and method, Wu Wenzheng, Li Guiwei, Jiang Jili, Guo Xiaoyu, Wu Zichao, Liu Yanyu, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201610703005.X.

[8] Infinitely variable multi-material ultrasonic droplet jet additive manufacturing device and method, Wu Wenzheng, Li Guiwei, Liu Wei, Geng Peng, Du Haidong, Wang Yulei, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201610703001.1.

[9] Automated thin-walled pipe nozzle finishing device and method, Wu Wenzheng, Ye Wenli, Qu Haijun, Geng Peng, Wu Zichao, Li Guiwei, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201710027538.5.

[10] High-precision ultrasonic anti-blocking multi-cell biological additive method and device, Wu Wenzheng, Ye Wenli, Liu Wei, Geng Peng, Li Guiwei, Zhao Ji, Ren Luquan, China, Invention Patent of the State Intellectual Property Office, ZL201710027539.X.

[11] Ultrasonic droplet jet additive manufacturing device and method with controllable jet angle, Wu Wenzheng, Liu Wei, Li Guiwei, Du Haidong, Guo Xiaoyu, Wang Bofan, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201610702969.2.

[12] Holographic ultrasonic scene self-forming additive manufacturing method and device, Wu Wenzheng, Liu Wei, Li Guiwei, Jiang Jili, Du Haidong, Zhao Ji, Ren Luquan, China, Invention Patent of the State Intellectual Property Office, ZL201611195296.2.

[13] Method and device for additive manufacturing of closed multi-material special engineering plastics, Wu Wenzheng, Ye Wenli, Geng Peng, Wang Yulei, Wu Zichao, Li Guiwei, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201710027537.0.

[14] A cilia-like high-precision nano droplet nozzle device, Wu Wenzheng, Liu Wei, Li Guiwei, Wu Zichao, Jiang Jili, Du Haidong, Zhao Ji, China, Invention Patent of the State Intellectual Property Office, ZL201611009056.9.

[15] Negative Poisson's ratio high magnetostrictive material and its additive manufacturing method, Wu Wenzheng, Li Guiwei, Wu Zichao, Jiang Jili, Liu Wei, Zhao Ji, Ren Luquan, China, Invention Patent of the State Intellectual Property Office, ZL201710045217.8.

[16] Ultrasonic selective area laminated additive manufacturing device and method, Wu Wenzheng, Li Guiwei, Jiang Jili, Jiang Hao, Liu Wei, Qu Xingtian, Zhao Ji, Ren Luquan, China, Invention Patent of the State Intellectual Property Office, ZL201710247795.X.

[17] Optical holographic complex structure high-speed additive manufacturing device, Wu Wenzheng, Geng Peng, Liu Wei, Jiang Jili, Wu Zichao, Zhao Ji, Ren Luquan, China, Utility Model Patent of the State Intellectual Property Office, ZL201720036560.1.

[18] Ultrasonic deposition additive manufacturing device for composite materials, Wu Wenzheng, Jiang Jili, Li Guiwei, Jiang Hao, Liu Wei, Zhang Bing, Qu Xingtian, Zhao Ji, Ren Luquan, Utility Model Patent of the State Intellectual Property Office, ZL201720397634.4.

[19] Ultrasonic atomized metal physical vapor deposition additive manufacturing device, Wu Wenzheng, Jiang Jili, Li Guiwei, Jiang Hao, Wang Bofan, Tang Mengxin, Du Haidong, Zhao Ji, China, Utility Model Patent of the State Intellectual Property Office, ZL201720916928.3.

[20] Ultrasonic-assisted 3D cold printing device for metallic glass composite materials, Wu Wenzheng, Jiang Jili, Jiang Hao, Li Guiwei, Du Haidong, Liu Wei, Tang Mengxin, Zhao Ji, China, Utility Model Patent of the State Intellectual Property Office, ZL201721236057.7.

Other Professional Activities

[1] Member of China Mechanical Engineering Society Group and Intelligent Integration Technology Branch.

[2] Senior member of Chinese Mechanical Engineering Society.

[3] Senior member of Chinese Society of Micro and Nano Technology.

[4] Member of Institute of Electrical and Electronics Engineers (IEEE).

[5] Member of International Society of Advanced Materials and Manufacturing Engineering.

[6] Peer reviewer of mechanical and information disciplines of the National Natural Science Foundation of China.

[7] Evaluation expert of the Degree Center of the Ministry of Education.

[8] The daily work contact person of the governing unit of China Additive Manufacturing Industry Alliance.

[9] Standing director of Jilin Province Additive Manufacturing Society.

[10] Changchun City Science and Technology Expert.

[11]16th International Manufacturing Conference in China (IMCC 2015), Session Chair.

[12] Vice Chairman of the Young Scientists' Association, School of Mechanical and Aerospace Engineering, Jilin University.

[13] Member of Jilin University Young Scientists' Association.

Honors and Awards

2017, Natural Science Academic Achievement Award of Jilin Province: Research on high-performance special engineering plastic polyether ether ketone 3D printing technology, Third prize, the first complete person.

2012, Outstanding Postdoctoral Award of Jilin University.

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