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Assoc. Prof. Pengfei Wang | Dynamics| Best Researcher Award

Assoc. Prof. Dr.,Pengfei Wang,University of Science and Technology of China,China.

Assoc. Prof. Dr. Pengfei Wang is an esteemed academic at the University of Science and Technology of China (USTC), specializing in advanced research within the fields of science and technology. With a strong background in innovation and scientific discovery, Dr. Wang has contributed significantly to his area of expertise, advancing cutting-edge projects and fostering academic excellence at USTC. His scholarly work, widely recognized both nationally and internationally, continues to push the boundaries of modern science and technology research.

Summary:

Pengfei Wang is a standout researcher with substantial contributions to mechanics and material science, especially in areas related to composite materials, stress wave propagation, and advanced experimental techniques. His editorial roles, active memberships in global institutions, and recognition through prestigious national awards demonstrate his leadership and dedication to advancing engineering mechanics.

Professional Profiles:

Google Scholar

šŸŽ“ Education :

Dr. Pengfei Wang received his Ph.D. in Engineering Mechanics from the University of Science and Technology of China in 2012. Prior to this, he completed his B.S. in Engineering Mechanics at Hefei University of Technology, China, in 2007. His academic background laid the foundation for his research in the mechanical behavior of materials, stress wave propagation, and experimental mechanics.

šŸ¢Ā Experience:

Dr. Wang is currently a tenured Associate Professor in the Department of Modern Mechanics at the University of Science and Technology of China, a position he has held since November 2020. From 2016 to 2020, he was a tenure-track Associate Professor at the same institution. He also spent time as a Visiting Scholar at the University of California, Irvine, between 2019 and 2021, where he further expanded his knowledge in mechanical and aerospace engineering. Before his academic appointments in China, he worked as a Research Fellow at Nanyang Technology University in Singapore from 2012 to 2016, contributing to cutting-edge research in mechanical engineering.

šŸ› ļøSkills:

Dr. Wang is highly skilled in mechanical testing, dynamic experimental techniques, and computational simulations. His expertise in the finite element method and machine learning is complemented by his hands-on experience with various materials such as composites, brittle substances, and polymers. His research techniques often involve cutting-edge tools like the Hopkinson bar and SEM.

Research Focus :

Dr. Wangā€™s research interests are centered around the mechanical design of brittle and ductile materials, stress wave propagation in solids, and time-temperature coupling theories. He also investigates interface and surface strengthening mechanisms, leveraging multi-scale dynamic experimental techniques such as 1D-3D Hopkinson bar systems and in-situ SEM analysis. His work extends into the applications of Finite Element Method (FEM) and machine learning, with a focus on materials like carbon nanotube fibers, fiber-reinforced polymers, lightweight composites, and brittle materials.

šŸ”¬Awards:Ā 

Dr. Wang has received multiple accolades for his contributions to the field of mechanics. In 2022, he was awarded the Anhui Province Progress Special Award for Mechanics Science and Technology. A year earlier, in 2021, he earned the prestigious National Explosive Mechanics Outstanding Young Scholar Award in China, recognizing his contributions to explosive mechanics and material science.

Conclusion:

Pengfei Wang is an excellent candidate for the Research for Best Researcher Award, particularly due to his significant contributions to mechanics, his editorial and referee positions in prestigious journals, and his recognition within China. With further international exposure and interdisciplinary research efforts, he would be even more competitive on a global scale. His current strengths make him a strong contender for the award.

Publications :

  • Wu, Y., Wang, P., Wang, D., Bu, L., Tian, J., Sun, G., Xu, S. (2024). Synergistic ductility deformation and helical design of carbon nanotube fiber composites. Carbon, 229, 119441.

 

  • Wu, Y., Wang, P., Wang, D., Bu, L., Tian, J., Xu, S. (2024). Unveiling the microstructural evolution and interaction mechanisms for twisted structures. International Journal of Mechanical Sciences, 279, 109514.

 

  • Yuan, L., Xu, S., Chen, M., Xie, Y., Lu, J., Wang, P. (2024). Stress wave in the mesoscopic discontinuous medium by fractional approach. International Journal of Mechanical Sciences, 272, 109197.

 

  • Hui, Z., Zhang, Z., Wang, Y., Zhang, R., Liu, X., Jiang, M., Ju, F., Hou, W., Xia, Z., Wang, P. (2024). Gradiently foaming ultrasoft hydrogel with stop holes for highly deformable, crack-resistant, and sensitive conformal human-machine interfaces. Advanced Materials, 36(23), 2314163.

 

  • Xie, Y., Xu, S., Yuan, L., Chen, M., Wang, P., Zhang, J. (2024). Dynamic responses of laminated and graded ZrC-Mo composites. International Journal of Mechanical Sciences, 271, 109134.

 

  • Jiang, H., Tian, J., Tang, X. Z., Qu, Y., Liu, X., Xu, S., Wang, P. (2024). Surface strengthening mechanism of graphene-oxide membrane and its modified aluminum lamina under penetration loading. Carbon, 225, 119098.

 

  • Hu, X., Zheng, Y., Sun, G., Wang, P. (2024). Understanding the torsional mechanical behavior of twisting carbon nanotube ribbon with different boundary conditions. Mechanics of Materials, 190, 104906.

 

  • Miao, C., Xu, S., Yuan, L., Chen, M., Xie, Y., Wang, P. (2023). Experimental investigation of failure diffusion in brittle materials subjected to low-speed impact. International Journal of Mechanical Sciences, 259, 108632.

 

  • Lu, J., Xu, S., Li, Y., Miao, C., Xie, Y., Yuan, L., Chen, M., Wang, P. (2023). Investigations on the compression-shear coupled stress waves propagating in heterogeneous rock. Mechanics of Materials, 186, 104786.

 

  • Chen, M., Xu, S., Yuan, L., Miao, C., Lu, J., Ma, H., Gao, G., Wang, P. (2023). Influence of stress state on dynamic behaviors of concrete under true triaxial confinements. International Journal of Mechanical Sciences, 253, 108399.

 

  • Wang, D., Wang, P., Wu, Y., Bu, L., Tian, J., Liu, M., Sun, G., Mei, L., Xu, S. (2023). Temperature and rate-dependent plastic deformation mechanism of carbon nanotube fiber: Experiments and modeling. Journal of the Mechanics and Physics of Solids, 173, 105241.

 

  • Yuan, L., Miao, C., Xu, S., Xie, Y., Zhang, J., Li, Y., Gao, G., Wang, P. (2023). Stress-wave propagation in multilayered and density-graded viscoelastic medium. International Journal of Impact Engineering, 173, 104415.

 

  • Wang, P., Jiang, H., Liu, M., Zhang, L., Xu, S. (2022). Toughening mechanisms for the dynamic perforation behavior of laminar aluminum alloy with lubricated frictional interfaces. Materials & Design, 224, 111268.

 

  • Xie, Y., Xu, S., Huang, J., Miao, C., Lu, J., Zhou, L., Wang, P. (2022). Dynamic compaction induced heterogeneity in boron carbide powder. Ceramics International, 48(23), 34999-35010.

 

  • Miao, C., Xu, S., Lu, J., Yuan, L., Wang, P. (2022). Dynamic breakage of double glass spheres chain subjected to impacting loading. International Journal of Mechanical Sciences, 232, 107610.

 

Pengfei Wang | Dynamics| Best Researcher Award

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