Zhijing Wu (ZJ Wu), PhD, Professor and doctoral supervisor of Harbin Engineering University.
She received her bachelor's degree and master's degree from Harbin Institute of Technology in 2009 and 2011 respectively, and her double doctorate degree from Hong Kong Polytechnic University and Harbin Institute of Technology in 2016. She has been working at the School of Aerospace and Civil Engineering of Harbin Engineering University since 2016. From 2018 to 2019, she went to the University of Siegen, Germany as a visiting scholar for academic visit, and her co-professor is Academician Zhang Chuanzeng.
She has published more than 30 papers as the first/corresponding author in authoritative journals in the field of mechanics, such as Journal of Sound and Vibration, Mechanical Systems and Signal Processing, Thin-Walled Structures, Applied Mathematical Modelling, etc. She has won the first prize of Heilongjiang Science and Technology award (Nature) and the Outstanding paper award of 2021 International Conference on Applied Nonlinear Dynamics, Vibration and Control (ICANDVC-2021). As PI, she has undertaken 8 national and provincial/ ministerial projects. She has developed a set of mechanical analysis software for Marine engineering pipelines, which has been certified by China Classification Society, obtained 9 authorized national invention patents and 5 software Copyrights.
Young talents in the following fields are welcome to apply for master's and doctor's degrees:
Major in mechanics, civil engineering, aircraft design, machinery, control, physics, mathematics, etc.
Research areas
• Structural dynamics
• Vibration isolation
• Elastodynamics
• Finite element method (FEM)
• Spectral element method (SEM)
• Phononic crystal
• Acoustic metamaterial
• Nonlinear dynamics
• Vibration test technology
Lectures
• Undergraduate course: “Theoretical Mechanics”
• Postgraduate course: “Vibration and Shock Experimental Technology”
Educational experience
• 2014.10-2016.10: Ph.D., Department of Mechanical Engineering, Hong Kong Polytechnic University
Major: mechanical engineering
Research direction: Design and research of vibration isolation structures based on structural nonlinearity
• 2011.09-2016.01: Ph.D., School of Aeronautics and Astronautics, Harbin Institute of Technology
Major: General Mechanics and Fundamentals of Mechanics
Research direction: Structural dynamics and vibration control, dynamic performance analysis of new lightweight structures
• 2009.09-2011.07: Master, School of Aeronautics, Harbin Institute of Technology
Major: Solid Mechanics
Research direction: Spectral Element Method to Study the Dynamics of Rod Structures
• 2005.09-2009.07: Undergraduate, Harbin Institute of Technology, School of Aeronautics
Major: Engineering Mechanics
Research direction: Discrete wave number method for borehole sound field
Awards
• Science and Technology Award of the Heilongjiang Province, First Class (Natural), 2020.
• Outstanding paper award of 2021 International Conference on Applied Nonlinear Dynamics, Vibration and Control (ICANDVC-2021).
Research projects
1. Study on vibration and noise reduction mechanism of multi-dimensional and multi-level periodic structures(supported by the National Natural Science Foundation of China, international (regional) cooperation and exchange programs, Project manager)
2. Research on vibration and noise reduction mechanism of double-stage “S” type lattice sandwich periodic structure (supported by the National Natural Science Foundation of China, General Project, Project manager).
3. Design of nonlinear X-shaped periodic structure vibration damping device and research on vibration damping performance (supported by the National Natural Science Foundation of China, Youth Fund Project, Project manager).
4. Research on low-frequency vibration isolation performance of thin and light phononic crystal plate structure. (supported by China Postdoctoral Science Foundation, Special Funding Projects, Project manager).
5. Research on vibration isolation performance of lattice sandwich metamaterial panel structure (supported by Heilongjiang Provincial Government Postdoctoral Project, Postdoctoral Young Talents Program, Project manager).
6. Analysis of vibration reduction performance of new type artificial periodic structures with double periodicity.(supported by China Postdoctoral Science Foundation, the first class funding, Project manager).
7. Multi-period structure design with vibrator and research on its vibration reduction performance, (supported by Heilongjiang Provincial Government Postdoctoral Project, the Second Class Funding, Project manager).
8.Design and experimental research of quasi-zero stiffness vibration isolator based on scissor structure (Supported by the Open Project of the Key Laboratory of Aerodynamic Equipment Vibration and Control of the Ministry of Education of Northeastern University, Project manager).
Publications
1 Longkai Zheng, Fengming Li, Zhijing Wu, Shurui Wen. Dynamic modelling and quality factor evaluation of hemispherical shell resonators. Journal of Sound and Vibration, 2024, 571: 118046.
2 Longkai Zheng, Zhijing Wu, Shurui Wen, Fengming Li. An analytical model for thermoelastic damping in laminated microring resonators. Applied Mathematical Modelling, 2023, 116: 655-672.
3 Ziye Chen, Zhijing Wu, Shurui Wen, Fengming Li. Vibration characteristics of eccentric annular plates. Thin-Walled Structures, 2023, 191: 111043.
4 Tinglong Chao, Xiaoliang Xu, Zhijing Wu, Shurui Wen, Fengming Li. Quasi-zero stiffness vibration isolators with slender Euler beams as positive stiffness elements. Mechanics of Advanced Materials and Structures, 2023, DOI: 10.1080/15376494.2023.2192207.
5 Longkai Zheng, Zhijing Wu, Shurui Wen, Fengming Li. Thermoelastic damping in cylindrical shells with arbitrary boundaries. International Journal of Heat and Mass Transfer, 2023, 206: 123948.
6 Linzhongyang E, Zhijing Wu, Fengming Li, Guangping Zou. A finite/spectral element hybrid method for modeling and band-gap characterization of metamaterial sandwich plates. Materials, 2023, 16: 1098.
7 Tongtong Huo, Zhijing Wu, Fengming Li. Band-gap properties for the folded S-type periodic structure: Numerical simulation and experiment. Acta Mechanica Solida Sinica, 2023, 36: 624–632.
8 Xiaoqiang Chong, Zhijing Wu, Fengming Li. Vibration isolation properties of the nonlinear X-combined structure with a high-static and low-dynamic stiffness: Theory and experiment. Mechanical Systems and Signal Processing, 2022, 179: 109352.
9 Shurui Wen, Jianying Jing, Ding Cui, Zhijing Wu, Wenyu Liu, Fengming Li. Vibration isolation of a double-layered Stewart platform with local oscillators. Mechanics of Advanced Materials and Structures, 2022, 29(27): 6685-6693.
10 Linzhongyang E, Zhijing Wu, Guangping Zou, Fengming Li, Chuanzeng Zhang, Aijun Sun, Qiang Du. Band-gap characteristics of elastic metamaterial plate with axial rod core by the finite element and spectral element hybrid method. Mechanics of Advanced Materials and Structures, 2022, 29(17): 2405–2422.
11 Shuaimin Hao, Zhijing Wu, Fengming Li, Chuanzeng Zhang. Enhancement of the band-gap characteristics in disordered elastic metamaterial multi-span beams: Theory and experiment. Mechanics Research Communications, 2021, 113: 103692.
12 Zhijing Wu, Wenyu Liu, Fengming Li, Chuanzeng Zhang. Band-gap property of a novel elastic metamaterial beam with X-shaped local resonators. Mechanical Systems and Signal Processing, 2019, 134: 106357.
13 Fuchao Gao, Zhijing Wu, Fengming Li, Chuanzeng Zhang. Numerical and experimental analysis of the vibration and band-gap properties of elastic beams with periodically variable cross sections, Waves in Random and Complex Media, 2019, 29(2), 299–316.
14 Shuaimin Hao, Zhijing Wu, Fengming Li, Chuanzeng Zhang.Numerical and experimental investigations on the band-gap characteristics of metamaterial multi-span beams. Physics Letters A. 2019, 383: 126029.
15 Zhijing Wu, Fengming Li, Chuanzeng Zhang. Band-gap analysis of a novel lattice with a hierarchical periodicity using the spectral element method. Journal of Sound and Vibration, 2018, 421:246–260.
16 Shurui Wen, Zhijing Wu, Nianli Lu. High-precision solution to the moving load problem using an improved spectral element method. Acta Mechanica Sinica, 2018, 34(1):68–81.
17 Zhijing Wu, Xingjian Jing, Bo Sun, Fengming Li. A 6DOF passive vibration isolator using X-shape supporting structures. Journal of Sound and Vibration, 2016, 380: 90–111.
18 Zhijing Wu, Fengming Li. Spectral element method and its application in analysing the vibration band gap properties of two-dimensional square lattices. Journal of Vibration and Control, 2016, 22: 710-721.
19 Zhijing Wu, Fengming Li, Chuanzeng Zhang. Vibration band-gap properties of three-dimensional Kagome lattices using the spectral element method. Journal of Sound and Vibration, 2015, 341: 162–173.
20 Zhijing Wu, Xingjian Jing, Jing Bian, Fengming Li, Robert Allen. Vibration isolation by exploring bio-inspired structural nonlinearity. Bioinspiration and Biomimetics, 2015, 10(5): 056015.
21 Zhijing Wu, Fengming Li. Dynamic properties of three-dimensional piezoelectric Kagome grids. Waves in Random and Complex Media, 2015, 25(3): 361–381.
22 Zhijing Wu, Fengming Li, Yize Wang. Vibration band gap properties of periodic Mindlin plate structure using the spectral element method. Meccanica, 2014, 49: 725–737.
23 Zhijing Wu, Fengming Li, Chuanzeng Zhang. Vibration properties of piezoelectric square lattice structures. Mechanics Research Communications, 2014, 62: 123–131.
24 Zhijing Wu, Fengming Li, Yize Wang. Vibration band gap behaviors of sandwich panels with corrugated cores. Computers and Structures, 2013, 129: 30–39.
25 Zhijing Wu, Fengming Li, Yize Wang. Study on vibration characteristics in periodic plate structures using the spectral element method. Acta Mechanica, 2013, 224: 1089–1101.
26 Zhijing Wu, Yize Wang, Fengming Li. Analysis on band gap properties of periodic structures of bar system using the spectral element method. Waves in Random and Complex Media, 2013, 23: 349–372.
Academic communication
1. Peng Sun, Zhijing Wu*, Shurui Wen, Fengming Li. Study on band-gap characteristics of 2D hierarchical phononic crystal. The proceedings of 2021 International Conference on Applied Nonlinear Dynamics, Vibration and Control, 2021 August, 28–30, Zhuhai, China. (Outstanding Paper Award)
2. Zhijing Wu, Xingjian Jing. A bio-inspired structure for vibration isolation. IEEE International Conference on Cyber Technology in Automation, Control, and Intelligent Systems. IEEE, 2015, June, 8–12, Shenyang, China.
3. The 5th International Conference on Dynamics, Vibration and Control. 2018 July 28–30. Structural nonlinear dynamics, vibration control and applications. Session Chair.
4. Hao Shuaimin, Wu Zhijing*, Li Fengming. Research on the band gap properties of acoustic metamaterial beam structures. 2018 National Conference on Solid Mechanics, November 23–25, 2018, Harbin. (In Chinese)
5. E linzhongyang, Wu Zhijing*, Li Fengming. Analysis of vibration characteristics of elastic wave metamaterial plates. 2018 National Conference on Solid Mechanics, November 23–25, 2018, Harbin. (In Chinese)
6. Wu Zhijing*, Li Fengming. Study on Dynamic Properties of Lightweight Structures Using Spectral Element Method. 2018 National Conference on Solid Mechanics, November 23–25, 2018, Harbin. (In Chinese)
7. 2018 National Conference on Solid Mechanics, November 23–25, 2018, Harbin. Conference affairs and submission contacts.
8. Advanced Workshop on New Developments of Solid Elastic Wave Mechanics Driven by Technological Innovation, National Natural Science Foundation of China, Beijing Jiaotong University, August 5–9, 2014, Beijing.
9 .Wu Zhijing, Li Fengming. Spectral element method to study the vibrational bandgap properties of periodic Mindlin plate structures. Chinese Congress of Mechanics, August 19–21, 2013, Xi’an. (In Chinese)
10. Wu Zhijing, Li Fengming. Nonlinear dynamics of connecting rod structures with clearance hinges. The 9th National Conference on Dynamics and Control, May 18–20, 2012, Xi'an. (In Chinese)
11.Wu Zhijing, Li Fengming. Nonlinear dynamics study of space truss beam structures with gap hinges. China Mechanics Congress, August 22–24, 2011, Harbin. (In Chinese)
Patents
Obtained 9 authorized national invention patents and 5 software Copyrights.
