Doctorate at Shenyang University of Technology, China
Professional Profiles
Scopus
Orcid
🎓 Academic and Professional Background
Wenjie Li is a doctoral candidate with research expertise in acoustomechanical metamaterials and equipment vibration and noise control. His work addresses the development of mechanical metamaterials tailored to optimize noise reduction and enhance the stability of machinery, reflecting his dedication to innovations in environmental and industrial acoustics.
🔬 Research and Innovations
Wenjie has led and contributed to several prestigious research projects backed by prominent funding institutions, including:
National Natural Science Foundation of China
China Postdoctoral Science Foundation
Liaoning Province Natural Science Foundation
Education Department of Liaoning Province
Liaoning Provincial Science and Technology Program
These projects reflect his commitment to advancing acoustomechanical innovations in vibration control technology, contributing to improvements in noise management for various industrial applications.
🤝 Professional Memberships
Wenjie Li is a member of the Chinese Society of Vibration Engineering, where he actively engages with peers in research collaborations focused on vibration control and acoustics. His involvement strengthens his impact within the field of vibration engineering.
🔧 Areas of Research
Mechanical Metamaterial: Wenjie’s research in this area emphasizes the creation of materials with unique acoustic properties that can manipulate sound and control vibrations, transforming approaches to noise management.
Equipment Vibration and Noise Control: His research seeks to reduce operational noise and improve efficiency in machinery, addressing key challenges in engineering and industrial environments.
Publications Top Noted📚
Vibration Control and Bandgap Tuning of Layer-Gradient Periodic Pipes Based on Composite Cell
Authors: Li, W.; Kong, X.; Xu, Q.; Hao, Z.
Journal: Composite Structures
Year: 2024
Bandgap Accuracy and Characteristics of Fluid-Filled Periodic Pipelines Utilizing Precise Parameters Transfer Matrix Method
Authors: Li, W.; Kong, X.; Xu, Q.; Hao, Z.
Journal: Journal of Fluids and Structures
Year: 2024
Study on the Self-Synchronization and Sommerfeld Effect of Rectangular Thin Plate Vibration System Excited by Double Induction Motors
Authors: Kong, X.; Zeng, F.; Li, W.; Kong, F.; Wu, T.
Journal: Journal of Vibration Engineering and Technologies
Year: 2024
Nonlinear Dynamic Response of a Thin Rectangular Plate Vibration System Excited by a Non-Ideal Induction Motor
Authors: Li, W.; Kong, X.; Xu, Q.; Zhou, C.; Hao, Z.
Journal: Journal of Vibration Engineering and Technologies
Year: 2023
Dynamic Characteristics of a Simply Supported Elastic Beam with Three Induction Motors
Authors: Kong, X.; Li, W.; Jiang, J.; Dong, Z.; Wang, Z.
Journal: Journal of Sound and Vibration
Year: 2022