姓名:彭玉祥
工作单位:海洋工程与技术学院
专业资格:副教授、硕士生导师
电子邮箱:pengyx55@mail.sysu.edu.cn
研究方向:流固耦合动力学、计算力学、智能结构力学
招生专业:船舶与海洋结构物设计制造、船舶工程
个人详细信息:
彭玉祥,男,1992年6月出生,中山大学副教授,硕士生导师。瞄准水下强冲击载荷作用下的结构毁伤问题,长期致力于流固耦合动力学、智能结构力学、计算力学理论及应用等方面的研究工作,开发了完全无网格SPH-RKPM强冲击流固耦合计算模型,发展了高精度DGM多相流计算模型,近期将FEM嵌入物理信息神经网络,构建了结构应力场智能快速重构模型。相关研究成果应用到我国多个重点型号研制的爆炸毁伤预报及防护结构优化设计当中。主持有国家自然科学基金爆炸结构无网格计算方法、船舶开放基金高精度流固耦合计算方法、复合材料艇体抗冲击性能评估等项目,作为技术骨干参与国家重点研发计划、GF973专题等,参与海上实船水下爆炸试验、水下爆炸模型试验等。相关成果发表高水平SCI学术论文40余篇,获得2021年Moan-Faltinsen年度最佳论文奖、中国造船工程学会一等奖,海洋工程学会二等奖等奖项。
教育经历:
2014.09-2019.03,哈尔滨工程大学,船舶与海洋结构物设计制造专业,获博士学位,导师:张阿漫 教授
2010.09-2014.07,哈尔滨工程大学,船舶与海洋工程专业,获学士学位
工作经历:
2019.05-2021.10,哈尔滨工程大学,力学博士后流动站,博士后研究,合作导师:张阿漫 教授
2021.11-至今,中山大学,海洋工程与技术学院,“百人计划”副教授
社会兼职:
[1] 国家自然科学基金同行评议专家
[2] 第十一届船舶力学学术委员会新材料应用技术学组成员
[3] 《Computer Methods in Applied Mechanics and Engineering》、《Ocean Engineering》、《Journal of Fluids and Structures》、《Thin-Walled Structures》等期刊审稿人
荣誉与奖励情况:
[1] Moan–Faltinsen Annual Best Paper Award (2021)
[2] 2022年度中国造船学会科技进步一等奖
[3] 2023年度海洋工程科学技术奖二等奖
[4] 2023年,中山大学海洋工程与技术学院教学竞赛一等奖
[5] 2025年度中山大学第二届研究生教育教学成果奖二等奖
科研项目:
[1] 2026.03-2028.03,某工程(二期)基础研究指南课题,主持
[2] 2026.01-2028.12,广东省自然科学基金面上项目,主持
[3] 2026.01-2026.12,中国船舶科学中心结构应力场重构项目,主持
[4] 2023.01-2026.12,国家重点研发重点专项项目子课题,主持
[5] 2024.01-2025.12,深海技术科学太湖实验室结构监测项目,主持
[6] 2023.06-2023.12,中电科结构强度校核项目,主持
[7] 2022.06-2023.06,船舶总体性能创新研究开放基金项目,主持
[8] 2020.01-2022.12,国家自然科学基金青年科学基金项目(C类),主持
[9] 2020.05-2021.09,中国博士后科学基金面上资助,主持
学生指导:
[1] 2025年度研究生国家奖学金1项
[2] 2025年大学生创新创业训练项目立项2项
[3] 2024年大学生创新创业训练项目立项2项
[4] 2023年大学生创新创业训练项目立项2项(省级1项)
[5] 2022年大学生创新创业训练项目立项3项
代表性论文及专利:
[1] Shi W K, Chen C, Peng, Y. X., et al. A 3D multi-resolution SPH-FEM coupling model with boundary penetration prevention technique for violent fluid-structure interactions[J]. Computer Methods in Applied Mechanics and Engineering, 2026, 449: 118546. (SCI, JCR 一区, IF: 6.9)
[2] Jiang Z T, Huang M Z, Peng, Y. X., et al. Engineering application and experimental validation of the FEM-PIKAN model in ship hull deformation analysis[J]. Ocean Engineering, 2026, 344: 123588. (SCI, JCR 一区, IF: 5.5)
[3] Huang M. Z., Peng, Y. X., Jiang Z. T., et al. Physics-informed KAN-coupled FEM for deformation analysis of complex shells[J]. Thin-Walled Structures, 2025: 113725. (SCI, JCR 一区, IF:6.6)
[4] Chen Z. L., Liu N. N., Peng Y. X., et al. Numerical simulation of vortex-induced vibration response of flexible riser with internal flow under shear flow[J]. Ocean Engineering, 2025, 338: 121839. (SCI, JCR Q1, IF:5.5)
[5] Li X., Peng, Y. X., Liu N. N., et al. Experimental and numerical study on vibration suppression mechanism of vortex induced vibration in riser[J]. Ocean Engineering, 2025, 329: 121098. (SCI, JCR 一区, IF:5.5)
[6] Peng T. S., Peng, Y. X., Sun P. N., et al. Mitigating impact loads during water entry by utilizing the air-spring effect[J]. Ocean Engineering, 2024, 308: 118260. (SCI, JCR 一区, IF: 5.5)
[7] Xue B., Zhang A. M., Peng Y. X., et al. A meshfree orthotropic laminated shell model for geometrically nonlinear static and dynamic analysis[J]. Computational Mechanics, 2024, 73(5): 1033-1051. (SCI, JCR 一区, IF:3.9)
[8] Zhong S. Y., Sun P. N., Peng Y. X., et al. An SPH study of slamming and splashing at the bow of SYSU vessel[J]. Ocean Engineering, 2023, 269: 113581. (SCI, JCR 一区, IF: 5.5)
[9] Wang B., Peng Y. X., Sun P. N., et al. Numerical Simulation of the Anti-explosion Performance of Honeycomb Structures Based on RKPM[C] International Conference on Computational & Experimental Engineering and Sciences. Cham: Springer Nature Switzerland, 2023: 875-883. (EI,会议论文)
[10] Xue B., Wang S. P., Peng Y. X., et al. A novel coupled Riemann SPH–RKPM model for the simulation of weakly compressible fluid–structure interaction problems[J]. Ocean Engineering, 2022, 266: 112447. (SCI, JCR 一区, IF: 5.5)
[11] Zhang Q, Li S, Zhang A M, Peng Y. X., et al. A nonlocal nonlinear stiffened shell theory with stiffeners modeled as geometrically-exact beams[J]. Computer Methods in Applied Mechanics and Engineering, 2022, 397: 115150. (SCI, JCR 一区, IF:6.9)
[12] Li M. K., Zhang A. M., Peng Y. X., et al. An improved model for compressible multiphase flows based on Smoothed Particle Hydrodynamics with enhanced particle regeneration technique[J]. Journal of Computational Physics, 2022, 458: 111106. (SCI, JCR 一区, IF:3.8)
[13] 彭玉祥, 张阿漫, 薛冰, 等. 强冲击作用下舰船结构毁伤的三维无网格 SPH-RKPM 方法数值模拟[J]. 中国科学: 物理学, 力学, 天文学, 2021, 51(12): 124614. (封面论文)
[14] Peng, Y. X., Zhang, A. M., Wang, S.P (2021). Coupling of WCSPH and RKPM for the simulation of incompressible Fluid-Structure Interactions. Journal of Fluid and Structure, 102: 103254. (SCI, JCR 一区, IF: 2.84)
[15] Peng, Y. X., Zhang, A. M., Ming, F. R. (2021). Particle regeneration technique for Smoothed Particle Hydrodynamics in simulation of compressible multiphase flows. Computer Methods in Applied Mechanics and Engineering, 376: 113653. (SCI, JCR 一区, IF: 6.9)
[16] Peng, Y. X., Zhang, A. M., Ming, F. R. (2021). Numerical simulation of structural damage subjected to the near-field underwater explosion based on SPH and RKPM. Ocean Engineering, 222: 108576. (SCI, JCR 一区, IF: 4.6)
[17] Xue, B., Peng, Y. X., Ren S F, et al. (2021). Investigation of impact resistance performance of pyramid lattice sandwich structure based on SPH-FEM. Composite Structures, 261: 113561. (SCI, JCR 一区, IF: 5.138)
[18] Huang Y. H., Zhang Z. G., Peng Y. X., et al. A three-dimensional beam formulation for large deformation and an accurate implementation of the free boundary[J]. International Journal of Non-Linear Mechanics, 2021, 134: 103736. (SCI, JCR 一区, IF: 2.8)
[19] Peng, Y. X., Zhang, A. M., Ming, F. R. (2020). A 3d meshfree crack propagation algorithm for the dynamic fracture in arbitrary curved shell. Computer Methods in Applied Mechanics and Engineering, 367: 113139. (SCI, JCR 一区, IF: 6.9)
[20] Li, M. K., Zhang, A. M., Ming, F. R., Sun, P. N., Peng, Y. X. (2020). An axisymmetric multiphase SPH model for the simulation of rising bubble. Computer Methods in Applied Mechanics and Engineering, 366: 113039. (SCI, JCR 一区, IF: 6.9)
[21] Zhang, Q., Li, S.F., Zhang, A. M., Peng, Y. X., Yan, J.L. (2020). A Peridynamic Reissner-Mindlin Shell Theory. International Journal for Numerical Methods in Engineering, 122(1): 122-147. (SCI, JCR 一区, IF: 2.866)
[22] Peng, Y. X., Zhang, A. M., Ming, F. R., & Wang, S. P. (2019). A meshfree framework for the numerical simulation of elasto-plasticity deformation of ship structure. Ocean Engineering, 192: 106507. (SCI, JCR 一区, IF: 5.5)
[23] Peng, Y. X., Zhang, A. M., Li, S. F., & Ming, F. R. (2019). A beam formulation based on RKPM for the dynamic analysis of stiffened shell structures. Computational Mechanics, 63(1): 35-48. (SCI, JCR 一区, IF: 3.9)
[24] Peng, Y. X., Zhang, A. M., Ming, F. R. (2018). A thick shell model based on reproducing kernel particle method and its application in geometrically nonlinear analysis. Computational Mechanics, 62(3): 309-321. (SCI, JCR 一区, IF: 3.9)
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