Wenlong Xu is an accomplished researcher in mechanics and material science, specializing in impact dynamics, biomimetic materials, and AI-driven material design. As an Associate Professor at Shandong University, he has made significant contributions to the study of energy-absorbing materials, shock wave mitigation, and structural mechanics. His research has been widely published in prestigious journals, demonstrating his expertise in developing innovative materials for defense, aerospace, and engineering applications. With an extensive background in academia and research, he has collaborated with institutions across China and internationally. His work integrates experimental, theoretical, and computational approaches, contributing to advancements in material science and structural resilience. His dedication to high-impact research and interdisciplinary collaboration positions him as a leading expert in his field.
Professional Profile
Education
Wenlong Xu earned his Ph.D. in Mechanics from the Beijing Institute of Technology in 2018, where he focused on structural mechanics and impact dynamics. Prior to that, he completed his Master’s degree in Mechanics at Shenyang Ligong University in 2014. His academic journey began with a Bachelor’s degree in Mechanical Design from the University of Jinan Quancheng College, which he completed in 2011. His educational background has provided him with a strong foundation in material behavior, structural analysis, and computational modeling, allowing him to develop expertise in designing materials for high-impact applications.
Professional Experience
Wenlong Xu has held various research and academic positions in esteemed institutions. Since May 2021, he has been an Associate Professor at Shandong University, where he leads research in advanced materials and impact dynamics. Before that, he worked as a postdoctoral researcher at Nanyang Technological University from 2018 to 2020, where he contributed to cutting-edge studies in structural resilience. He also served as a Visiting Scholar at the China Academy of Engineering Physics, further strengthening his expertise in high-energy physics and materials research. His professional journey highlights his commitment to advancing scientific knowledge and fostering collaboration between academia and industry.
Research Interests
Wenlong Xu’s research interests focus on the development of novel materials and structures with enhanced energy absorption, impact resistance, and shock mitigation properties. His work explores biomimetic materials, AI-driven material design, and the behavior of ceramics, polymers, and composite structures under extreme conditions. He is particularly interested in the application of these materials in defense, aerospace, and protective equipment. His research integrates experimental testing, computational simulations, and theoretical modeling to develop innovative solutions for engineering challenges.
Research Skills
Wenlong Xu possesses a strong set of research skills that span multiple domains, including material characterization, computational modeling, and experimental mechanics. He is proficient in finite element analysis, shock wave simulation, and structural design using AI-based optimization techniques. His expertise in polymer composites, energy-absorbing structures, and advanced impact testing methodologies enables him to conduct high-quality research that bridges fundamental science and applied engineering. Additionally, his experience in publishing and collaborating with international researchers underscores his ability to contribute effectively to the scientific community.
Awards and Honors
Throughout his career, Wenlong Xu has received recognition for his outstanding research contributions. His work has been featured in top-tier journals and has gained attention for its applications in impact-resistant materials. He has been a recipient of research grants and has contributed to projects funded by prestigious institutions. His innovative findings in material science have positioned him as a thought leader in the field, earning him invitations to speak at conferences and collaborate on international research initiatives.
Conclusion
Wenlong Xu is a distinguished researcher whose contributions to material science and impact dynamics have had a significant impact on engineering and defense applications. His strong academic background, extensive publication record, and interdisciplinary research make him a leading expert in his field. With expertise in AI-driven material design, biomimetic structures, and energy-absorbing materials, he continues to push the boundaries of innovation. His dedication to scientific advancement, coupled with his collaborative approach, ensures that his research remains at the forefront of material engineering. Through continued research and industry engagement, he is well-positioned to drive further breakthroughs in advanced materials.
Publications Top Notes
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Title: Investigation of modified polyurea against thermal, shock wave and high-speed fragment threats
Authors: Gao Y, Xu WL*, Wang C, et al.
Journal: Polymer Composites
Year: 2025
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Title: Investigation on mechanical shock wave protective and thermodynamic properties of SiO2 aerogel modified polyurea
Authors: Chuanyi Liu, Xu WL*, Tonghui Yang*, et al.
Journal: Materials
Year: 2024
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Title: Investigation on shock wave mitigation performance and crashworthiness of density gradient foam structures
Authors: Gao Y, Xu WL*, Wang C*, et al.
Journal: International Journal of Impact Engineering
Year: 2024
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Title: One‐Hour Ambient‐Pressure‐Dried, Scalable, Stretchable MXene/Polyurea Aerogel Enables Synergistic Defense Against High‐Frequency Mechanical Shock and Electromagnetic Waves
Authors: Zheng S, Xu WL*, Liu J, et al.
Journal: Advanced Functional Materials
Year: 2024
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Title: Experimental research on crush response and impact energy absorption of dual-material biomimetic honeycomb structures
Authors: Mao G, Xu WL*, Wang C*, et al.
Journal: Mechanics of Advanced Materials and Structures
Year: 2024
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Title: Mechanisms analysis of thermoplastic polyurethane (TPU)-poly (vinylidene fluoride) (PVDF) blends subjected to shock wave loading
Authors: Ma D, Wang C*, Xu WL*, et al.
Journal: Polymer
Year: 2024
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Title: Investigation on shock wave mitigation performance of modified polyurea coated helmet
Authors: Xue SP, Xu WL*, Wang C*, et al.
Journal: Thin-Walled Structures
Year: 2024
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Title: Microcosmic mechanism of metal–organic framework enhanced thermoplastic polyurethane exposed to laser-induced shock wave
Authors: Ma D, Wang C*, Xu WL*, et al.
Journal: Journal of Reinforced Plastics and Composites
Year: 2024
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Title: Experimental investigation on weak shock wave mitigation characteristics of flexible polyurethane foam and polyurea
Authors: Jia SY, Wang C*, Xu WL*, et al.
Journal: Defence Technology
Year: 2024
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Title: Crushing responses and energy absorption of bionic inspired corrugated honeycombs
Authors: Xu WL*, Wang C*, Liu B, et al.
Journal: International Journal of Impact Engineering
Year: 2023
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Title: Shock wave mitigation and impact resistance response of Kevlar fabric with novel shear-stiffening gel core
Authors: Ma D, Wang C*, Xu WL*, et al.
Journal: Journal of Materials Research and Technology
Year: 2023
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Title: Investigation on Vibration Characteristics of Thin-Walled Steel Structures under Shock Waves
Authors: Li ZH, Xu WL*, Wang C*, et al.
Journal: Materials
Year: 2023
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Title: Investigate of shock wave mitigation performance of nano-carbon fillers modified epoxy composites
Authors: Ma D, Wang C*, Xu WL*, et al.
Journal: Polymer Composites
Year: 2022