Mr. Feixiang Tang is currently a Ph.D. candidate in Mechanical and Electronic Engineering at the School of Power and Mechanical Engineering, Wuhan University, under the supervision of Academician Prof. Sheng Liu. He holds a Bachelor’s degree in Material Forming and Control Engineering from Chang’an University (211 Project) and a Master’s degree from the School of Aerospace at Xi’an Jiaotong University (985 Project), supervised by Prof. Yaqin Song.
With extensive research and industrial experience in microelectromechanical systems (MEMS), semiconductor packaging, and nonlinear mechanics, Mr. Tang has led and participated in multiple national key R&D projects and provincial high-tech initiatives. His research bridges theory with practical applications, embodying deep integration of industry, academia, and research.
Professional Profile
Education
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Ph.D. in Mechanical and Electronic Engineering
Wuhan University (985 Project), China
Advisor: Prof. Sheng Liu (Academician)
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M.Sc. in Aerospace Engineering
Xi’an Jiaotong University (985 Project), China
Advisor: Prof. Yaqin Song
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B.Eng. in Material Forming and Control Engineering
Chang’an University (211 Project), China
Advisor: Prof. Yongnan Chen
Professional Experience
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Product Manager, Hefei Archimedes Electronics Co., Ltd. (2023.8–2024.5)
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Led product design and selection of IGBT power semiconductor components
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Oversaw project development, familiar with power semiconductor manufacturing
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R&D Engineer, BOE Technology Group Co., Ltd., Hefei (2018.9–2020.9)
Research Interests
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MEMS microneedle biomechanics and biocompatibility
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Multiphysics coupling and nonlinear mechanics in chip manufacturing and packaging
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Advanced semiconductor device physics and mechanical design
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Photothermal and coupled field effects in nano/microstructures
Publications Top Notes
1. Vibration Study of Functionally Graded Microcantilever Beams in Fluids Based on Modified Couple Stress Theory by Considering the Physical Neutral Plane
Journal: International Journal of Structural Stability and Dynamics
Date: 2025-05-30
DOI: 10.1142/S0219455425501093
Co-authors: Jize Jiang, Feixiang Tang, Sen Gu, Siyu He, Fang Dong, Sheng Liu
2. Vibration Analysis of Al–Al₂O₃ Micro-Cantilever Sandwich Beams with Porosity in Fluids
Journal: Micromachines
Date: 2025-02-11
DOI: 10.3390/mi16020206
Co-authors: Feixiang Tang, Xiong Yuan, Siyu He, Jize Jiang, Shaonan Shi, Yuhan Li, Wenjin Liu, Yang Zhou, Fang Dong, Sheng Liu
3. Vibration Analysis of Porous Cu–Si Microcantilever Beams in Fluids Based on Modified Couple Stress Theory
Journal: Nanomaterials
Date: 2024-07-03
DOI: 10.3390/nano14131144
Co-authors: Jize Jiang, Feixiang Tang, Siyu He, Fang Dong, Sheng Liu
4. Size-dependent Vibration Analysis of the Simply Supported Functionally Graded Porous Material Al–Al₂O₃ Rectangle Microplates Based on the Modified Couple Stress Theory with Innovative Consideration of Neutral Plane and Scale Distribution
Journal: Multidiscipline Modeling in Materials and Structures
Date: 2024-03-08
DOI: 10.1108/MMMS-09-2023-0314
Co-authors: Shaonan Shi, Feixiang Tang, Yongqiang Yu, Yuzheng Guo, Fang Dong, Sheng Liu
5. Analysis of Size-Dependent Linear Static Bending, Buckling, and Free Vibration Based on a Modified Couple Stress Theory
Journal: Materials
Date: 2022-10
DOI: 10.3390/ma15217583
Co-authors: Feixiang Tang, Siyu He, Shaonan Shi, Shun Xue, Fang Dong, Sheng Liu
6. Size-Dependent Buckling and Post-Buckling Analysis of the Functionally Graded Thin Plate Al–Cu Material Based on a Modified Couple Stress Theory
Journal: Nanomaterials
Date: 2022-10
DOI: 10.3390/nano12193502
Co-authors: Feixiang Tang, Fang Dong, Yuzheng Guo, Shaonan Shi, Jize Jiang, Sheng Liu
Conclusion
Mr. Feixiang Tang exemplifies a well-rounded young researcher and innovator, bridging advanced theoretical modeling (e.g., MCST in porous FGM microstructures) with real-world industry applications in MEMS and semiconductor design.
His academic productivity, technical depth, and industry-academic integration make him highly suitable for the Research for Young Innovator Award, especially within mechanical engineering and materials science domains.