Mr. Chengzhi Ma | Topological acoustics | Best Researcher Award
Mr. Chengzhi Ma, Xi ‘an Jiaotong University, China
Mr. Chengzhi Ma is currently pursuing a Ph.D. in Mechanical Engineering at Xi’an Jiaotong University, specializing in topological acoustics and noise/vibration control. He completed his Bachelor’s degree in Mechanical Manufacturing and Automation at Xi’an University of Technology, laying the foundation for his research journey. Chengzhi Ma has made notable contributions to the field of topological acoustics, focusing on barrier-free subwavelength acoustic interlayers and precision acoustic waveguides. His research, published in respected journals like Composite Structures and Journal of Physics D: Applied Physics, explores advanced acoustic control mechanisms applicable across various domains. Leading projects in underwater acoustic absorbing metamaterials and broad-spectrum air acoustic absorption, Chengzhi Ma exemplifies expertise in structural design, simulation, and innovative solutions to real-world acoustic challenges.
Professional Profile:
Orcid
š Educational Background:
Chengzhi Ma is currently pursuing a Ph.D. in Mechanical Engineering at Xiāan Jiaotong University, specializing in topological acoustics and noise/vibration control. He completed his Bachelor’s degree in Mechanical Manufacturing and Automation at Xiāan University of Technology, laying the foundation for his research journey.
š¬ Scientific Research:
Chengzhi Ma has made significant contributions to the field of topological acoustics, focusing on innovative concepts like barrier-free subwavelength acoustic interlayers and precision acoustic waveguides. His research, published in prestigious journals such as Composite Structures and Journal of Physics D: Applied Physics, explores advanced acoustic control mechanisms with applications in diverse settings.
š Project Experience:
As a leader in research and innovation, Chengzhi Ma has spearheaded projects like the development of underwater acoustic absorbing metamaterials and the exploration of broad-spectrum air acoustic absorption. His projects not only demonstrate technical expertise in structural design and simulation but also address practical challenges in acoustic engineering.
Publication Top Notes:
-
Title: Barrier-free subwavelength multi-channel topological acoustic interlayer under direct resonance induction
-
Year: 2024
-
-
Title: Tunable acoustic vortex generation by a compact rotating disk
-
Year: 2024
-
-
Title: Topological Acoustic High Performance Beamforming Mechanism Under Scatterer Rotation-Induced Mode
-
Year: 2024
-
-
Title: Stepless space-regulation of topological acoustic controller with high fault tolerance
-
Year: 2024
-
-
Title: Topological acoustic waveguide with high-precision internal-mode-induced multiband
-
Year: 2023
-