王杰,工学博士,硕导,澳门青年学者。主要从事爆炸与冲击动力学、生物毁伤和含能材料微结构设计与研发。作为负责人主持国家自然科学基金项目1项、军科委JCJQ项目1项、江苏省科技副总人才项目1项、先进智能防护装备技术教育部重点实验室和含能材料陕西实验室开放基金2项、北京卫星环境工程研究所和西安近代化学研究所课题2项、苏州清泰汽车安全科技有限公司研发项目1项。作为骨干成员参与完成国家自然科学基金委面上项目2项。以第一或通讯作者在力学(IJIE、IJSS、NODY等)和材料(ACTA M、PC、JAPS等)及物理(APL等)等领域期刊上发表SCI论文20余篇。
2025.03-2027.02 澳门科技大学 月球与行星科学 澳门青年学者
2018.10-2020.11 Rutgers University 力学 公派博士联培
2016.09-2021.06 北京理工大学 力学 博士
2021.07-至今 重庆大学 弘深青年教师
太阳系超高速撞击电磁辐射
先进生物毁伤与伤情评估技术
先进含能材料微结构设计与制备
二维碳纳米增强复合材料热/力/电性能
XXXX假人应用证明
XXXX电磁辐射测量系统应用证明
中央军委科技委JCJQ计划技术领域基金,2023-2025,主持;
国家自然科学基金青年项目,2023-2026,主持;
苏州清泰汽车安全科技有限公司,2025-2026,主持;
含能材料陕西实验室,2025-2026,主持;
先进智能防护装备技术教育部重点实验室,2024-2026,主持;
北京卫星环境工程研究所,2024-2026,主持;
中国船舶科学研究中心,2025-2026,主持;
西安近代化学研究所,2025-2026,主持;
最新出版物:
[1] J. Wang, L. Mou, L. Gong, Y. Liang, A. Mei, Mechanical properties and crack extension of nanocolumnar polycrystalline copper with grain boundary segregation, Acta Mechanica, 236 (2025) 855-869.
[2] Y. Qiao, J. Wang*, D. Lei, S. Nie, Z. Wei, L. Gong, J. Wang, Z. Liu, Ballistic Penetration Behavior of a Novel Tissue Analogs Paraffin Target: Experiment, Simulation, and Theory, Journal of Applied Polymer Science, n/a (2025) e56685.
[3] S. Nie, X. Pan, L. Chen*, B. Du, J. Wang*, High-temperature effect on continuous glass fiber reinforced polypropylene multilayer composite and corrugated sandwich panels, Chinese Journal of Aeronautics, 38 (2025) 103210.
[4] L. Wang, J. Wang*, J. Hu, X. Pu, L. Gong*, The Effect of Graphene Nanofiller on Electromagnetic-Related Primary Resonance of an Axially Moving Nanocomposite Beam, Symmetry, 17 (2025) 651.
[5] J. Wang, L. Mou, L. Gong*, Y. Liang, A. Mei, Mechanical properties and crack extension of nanocolumnar polycrystalline copper with grain boundary segregation, Acta Mechanica, (2024).
[6] J. Wang, L. Gong, S. Xi, C. Li, Y. Su*, L. Yang, Synergistic effect of interface and agglomeration on Young's modulus of graphene-polymer nanocomposites, International Journal of Solids and Structures, 292 (2024) 112716.
[7] J. Wang, X. Duan, L. Gong*, S. Nie, Interfacial and Filler Size Effects on Mechanical/Thermal/Electrical Properties of CNTs-Reinforced Nanocomposites, Polymers, 16 (2024) 808.
[8] J. Wang, L. Gong*, R. Long, L. Chen, Q. Wu, S. Ren, Y. Xue, Q. Zhang, An expansion model of hypervelocity impact-generated plasma aided by spectral methods, International Journal of Impact Engineering, 186 (2024) 104896.
[9] S. Nie, J. Wang*, L. Chen*, B. Du, X. Pan, Y. Guo, J. Deng, Mechanical response and damage evolution of CF/PEEK-reinforced Al metal-composite hybrid structure at high strain rate, Polymer Composites, 45 (2024) 9543-9560.
[10] S. Nie, L. Chen*, Z. Yun, J. Wang*, X. Pan, An Experimental Study on the Thermomechanical Coupling Effects of Carbon-Fiber-Reinforced Polyetheretherketone under Dynamic Impact, Polymers, 16 (2024) 2295.
[11] D. Lei, J. Wang*, Y. Qiao, S. Nie, Z. Wei, L. Gong, J. Wang, Z. Liu*, Effect of glass fiber and polyester thickness on the ballistic velocity limit of glass fiber reinforced plastics, Polymer Composites, (2024) 1-12.
[12] L. Wang, J. Wang*, M. Zhang, L. Gong*, Magneto-elastic vibration of axially moving graphene nanocomposite current-carrying beam with variable speed and axial force, Acta Mechanica, 235 (2024) 5747-5763.
[13] J. Wang, C. Li, Y. Sheng, Y. Su*, L. Yang, Cross-scale investigation of the size effect on thermal conductivity of monolayer graphene, Applied Physics Letters, 121 (2022) 042202.
[14] J. Wang, C. Li, J. Li, G.J. Weng, Y. Su*, A multiscale study of the filler-size and temperature dependence of the thermal conductivity of graphene-polymer nanocomposites, Carbon, 175 (2021) 259-270.
[15] C. Li, J. Wang*, Y. Su*, A dual-role theory of the aspect ratio of the nanofillers for the thermal conductivity of graphene-polymer nanocomposites, International Journal of Engineering Science, 160 (2021) 103453.
[16] J. Wang, J.J. Li, G.J. Weng, Y. Su*, The effects of temperature and alignment state of nanofillers on the thermal conductivity of both metal and nonmetal based graphene nanocomposites, Acta Materialia, 185 (2020) 461-473.
[17] J. Wang, Y. Hu*, Y. Su*, L. Gong, Q. Zhang, Magneto-elastic internal resonance of an axially moving conductive beam in the magnetic field, Journal of Theoretical and Applied Mechanics, 57 (2019) 179-191.
[18] 王杰, 胡宇达*, 磁场中轴向运动载流梁磁弹性主共振分析, 振动与冲击, 35 (2016) 65-73.
[19] M. Zhang, R. Ma, J. Zhou, Y. Zhang, J. Wang, S. Weng, Unveiling Frequency-Dependent Electromechanical Dynamics in Ferroelectric BaTiO3 Nanofilm with a Core-Shell Structure, Coatings, 14 (2024) 1437.
[20] Y. Sheng, C. Li, J. Wang, X. Xia, G.J. Weng, Y. Su, Multiscale modeling of thermal conductivity of hierarchical CNT-polymer nanocomposite system with progressive agglomeration, Carbon, 201 (2023) 785-795.
[21] X. Xia, S. Zhao, J. Wang, H. Du, G.J. Weng, Tuning the AC electric responses of decorated PDA@ MWCNT/PVDF nanocomposites, Composites Science and Technology, 222 (2022) 109398.
[22] C. Li, J. Wang, Y. Sheng, L. Yang, Y. Su, The strain-dependent interfacial thermal resistance at graphene-silicon interface under various deformation conditions, International Journal of Heat and Mass Transfer, 198 (2022).
[23] Q. Zhang, X. Xia, J. Wang, Y. Su, Effects of epitaxial strain, film thickness and electric-field frequency on the ferroelectric behavior of BaTiO 3 nano films, International Journal of Solids & Structures, (2018).
[24] S. Nie, K. Guo, Y. Tian, L. Chen, Z. Yun, X. Pan, W. Li, J. Wang, X. Hou, S. Zhu, T. Liu, Z. Song, Experimental study on the mechanical and thermal properties of PEEK, CF/PEEK, and GF/PEEK thin-walled cylinders under static compressive tests, Thin-Walled Structures, 210 (2025) 113032.
[25] L. Gong, Q. Zhang, R. Long, J. Wang, W. Liu, Theoretical analysis of ionization of spherical aluminum alloy projectile impacting aluminum alloy target in hypervelocity impact, International Journal of Impact Engineering, 158 (2021) 104022.
[26] 龚良飞, 张庆明, 龙仁荣, 薛一江, 王杰, 任思远, 任天飞, 超高速碰撞铝合金产生等离子体的磁场及辐射特性, 中国科学:物理学 力学 天文学, 50 (2020) 198-208.
[27] L. Gong, Q. Zhang, J. Wang, Y. Ju, Y. Xue, Molecular Dynamics Simulation on the Non-thermal Equilibrium State of Plasma Induced by Hypervelocity Impact, Journal of the Physical Society of Japan, 88 (2019) 054001.
[28] L. Gong, Q. Zhang, H. Liang, S. Ren, J. Wang, Mechanical properties and microstructure of Zabelia biflora, Wood Research, 64 (2019) 423-436.
[29] Y.D. Hu, J. Wang, Principal-internal resonance of an axially moving current-carrying beam in magnetic field, Nonlinear Dynamic, 90 (2017) 683-695.
