张晓鹏,工程力学系副教授, 博士研究生导师。
先后获得两个工学博士学位(2015中国大连理工大学、2018日本广岛大学)。国际结构与多学科优化学会会员,中国力学学会会员,辽宁省力学学会理事,工业装备结构分析优化与CAE软件全国重点实验室固定成员。曾获2020年度教育部自然科学一等奖,获2022年第七届中国创新挑战赛优胜奖,钱令希力学奖一等青年教师奖等。入选大连市高层次人才(高端人才),大连市青年科技之星,大连理工大学星海人才培育计划(星海优青、星海骨干)。
科研成果简介:
主要从事考虑结构动力学拓扑优化方法,力学超材料优化设计,力学与多物理场耦合优化设计,面向先进制造的创新结构设计,基于机器学习的结构设计与优化等方面的研究。近年来,共发表国际SCI期刊论文50余篇,第一作者出版学术专著《结构动力学拓扑优化理论与方法》一部,Google学术引用2000余次,3篇论文入选ESI高被引论文,4篇论文被选为封面论文,论文发表在Computer Methods in Applied Mechanics and Engineering,International Journal of Mechanical Sciences, Materials Horizons, Mechanical Systems and Signal Processing, International Journal for Numerical Methods in Engineering 等本领域权威期刊。担任《计算力学学报》、《应用力学学报》青年编委,SCI期刊《International Journal of Smart and Nano Material》 青年编委等。
研究受到国内外数十位院士、期刊主编的引用和评价,研究成果被国际结构与优化学会五位历任主席 Olhoff 院士、程耿东院士、Sigmund院士、Wei Chen院士、Qing Li教授, 铁木辛柯奖章得主 Reddy院士,中国 胡海岩院士、张卫红、方岱宁等院士,美国工程院Paulino院士,澳大利亚工程院 YM Xie院士,欧洲科学院CZ Zhang院士,加拿大工程院 L Cheng院士,韩国工程院SK Youn院士等多位国际著名学者的引用和大篇幅正面评价。
主要研究领域:
更多内容参见“科学研究-研究领域”页面
团队温暖和谐,师生积极进取。
目前指导在读博士研究生7人,硕士研究生14人。
多位研究生曾获国家奖学金、辽宁省优秀毕业生、大连市优秀毕业生,校优秀硕士学位论文、校优秀研究生、优秀学生干部等奖励或荣誉称号。
热烈欢迎力学、机械、材料、物理等相关学科感兴趣的同学咨询、加入我们课题组:zhangxiaopeng@dlut.edu.cn
本人微信号:zhangxiaopeng230481
团队学生联系人(魏同学)微信号:wzs18018999603
历年毕业硕/博士研究生:
2025-06 赵 琦 (硕士,2022入学),论文题目:双稳态曲壳单元的特性研究及吸能设计
2025-06 景钰慧 (硕士,2022入学),论文题目:流固耦合共轭传热的冷却流道拓扑优化设计
2024-06 贾智源 (博士,2018硕博连读),论文题目:考虑带隙与波调控的声子晶体拓扑优化
2024-06 李柏宽 (硕士,2021入学),论文题目:负刚度多稳态结构的力学性能分析与结构优化
2024-06 杨 燊 (硕士,2021入学),论文题目:考虑多通道驱动的压电智能结构拓扑优化
2023-06 田启明 (硕士,2020入学),论文题目:考虑特定带隙的声子晶体拓扑优化设计与声学实验研究
2022-06 梁 宽 (硕士,2019入学,继续读博),论文题目:基于半主动控制的结构动力学与声子晶体拓扑优化
2022-06 刘姣姣 (硕士,2019入学),论文题目:多稳态结构吸能特性及其优化设计分析
2021-06 孙佳美 (硕士,2018入学),论文题目:考虑缺陷的声子晶体微结构优化设计
2020-06 康 柯 (硕士,2017入学),论文题目:基于反应扩散方程的应力约束的拓扑优化
工作经历:
2019.12- 大连理工大学 工程力学系 副教授/博导
2015.05-2019.12 大连理工大学 工程力学系 讲师
2015.05-2019.03 大连理工大学 船舶与海洋工程博士后流动站 博士后
2016.11-2018.11 日本广岛大学 运输与环境系统系 研究员/博士后
学习经历:
2009.09-2015.04 大连理工大学 工程力学系 计算力学专业 工学博士 导师:亢战 教授 (被评选为辽宁省优秀博士论文、辽宁省优秀毕业生)
2016.11-2018.09 日本广岛大学,运输与环境系统专业,获得工学博士学位 导师:Takezawa教授
2005.09-2009.08 大连理工大学 工程力学系 工程力学专业 工学学士
科研奖励与荣誉:
2020 教育部自然科学一等奖(排名第三)
2021 大连市高层次人才(高端人才)
2020 大连市青年科技之星
2019 大连理工大学星海优青
2019 大连理工大学星海骨干考核优秀(全校共六人)
2019 钱令希力学奖一等青年教师奖
2018 大连理工大学星海骨干
2016 辽宁省优秀博士论文(全省20人)
主要科研项目:
1) 负责国家自然科学基金面上项目1项 (2023-2026);
2) 负责国家重点研发子课题1项 (2026-2028);
3) 负责航天三院揭榜挂帅项目1项 (2025-2026);
4) 负责辽宁省揭榜挂帅项目1项 (2024-2026);
5) 负责航空科学基金1项 (2025-2026);
6) 负责国家自然科学基金青年基金1项 (2016-2019);
7) 负责中国博士后科学基金特别资助1项 (2018-2019);
8) 参与国家自然科学基金重点项目3项。
近期主要论著:
专著:
《结构动力学拓扑优化理论与方法》,张晓鹏,亢战。大连理工大学出版社, 2020
论文: (2012-2025)
[1] Y. Bao, Z. Jia, Q. Tian, Y. Luo, X. Zhang, Z. Kang, Phononic crystal-based acoustic demultiplexer design via bandgap-passband topology optimization, Compos. Struct. 351 (2025) 118622.
[2] Y. Li, X. Zhang, Z. Gao, Y. Luo, R. Wang, Topology Optimization of Wide‐Frequency Tunable Phononic Crystal Resonators with a Reconstructable Point Defect, Adv. Theory Simulations. (2025) 2401441.
[3] K. Liang, X. Zhang, Q. Zhao, Z. Wei, Y. Wang, Y. Luo, A. Takezawa, D. Wang, Ideal energy-absorbing metamaterials based on self-locking bistable structures, Mater. Horizons. (2025).
[4] Y. Li, D. Wang, Y. Feng, X. Chen, X. Chen, C. Liu, Y. Li, L. Suo, R. Zhang, X. Zhang, Fluid drawing printing 3D conductive structures for flexible circuit manufacturing, Microsystems Nanoeng. 11 (2025) 1–12.
[5] Y. Jing, L. An, S. Yi, J. Li, P. Liu, Y. Wang, X. Zhang, Topology optimization for fluid–structure interaction problems considering heat transfer performance, Theor. Appl. Mech. Lett. 15 (2025) 100592.
[6] E. Zhang, S. Yang, D. Wang, X. Zhang, Multi-voltage topology optimization for precise deformation control in piezoelectric composite structures, Thin-Walled Struct. 213 (2025) 113272.
[7] X. Zhang, Z. Ni, A. Takezawa, Y. Wang, Z. Kang, Microscopic stress-constrained two-scale topology optimisation for additive manufacturing, Virtual Phys. Prototyp. 20 (2025) e2450276.
[8] Z. Jia, Y. Yan, Y. Bao, Y. Luo, D. Wang, X. Zhang, Z. Kang, Maximizing attenuation of sound waves preserving air permeability in sonic crystals via topology optimization, Appl. Acoust. 228 (2025) 110348.
[9] W. Cheng, X. Zhang, T. Hu, J. Li, Y. Wang, Stress-constrained topology optimization using the velocity field level set method, Comput. Struct. 305 (2024) 107577.
[10] 锁刘佳,杨燊,王泽,张晓鹏,王大志, 基于多控制系数的压电智能结构减振优化设计, 计算力学学报. (2024) 1–8.
[11] Z. Ni, W. Cheng, Y. Wang, Y. Luo, X. Zhang, Z. Kang, Topology optimization of two-scale hierarchical structures with high-cycle fatigue resistance, Comput. Methods Appl. Mech. Eng. 430 (2024) 117213.
[12] Y. Bao, Z. Wei, Z. Jia, D. Wang, X. Zhang, Z. Kang, Mechanical metamaterial design with the customized low-frequency bandgap and negative Poisson’s ratio via topology optimization, Extrem. Mech. Lett. 67 (2024) 102124.
[13] K. Liang, S. Zhou, Y. Luo, X. Zhang, Z. Kang, Topology optimization design of recoverable bistable structures for energy absorption with embedded shape memory alloys, Thin-Walled Struct. 198 (2024) 111757.
[14] W.U. Feng, Z. Yuelin, Y. Yuxiang, X. ZHANG, Z. Ning, A new discrepancy for sample generation in stochastic response analyses of aerospace problems with uncertain parameters, Chinese J. Aeronaut. (2024).
[15] J. Ma, X. Zhang, Z. Kang, Directional damping design of viscoelastic composites via topology optimization, Int. J. Mech. Sci. 275 (2024) 109300.
[16] Y. Li, X. Zhang, Q. Tian, Y. Luo, Topological design of soft substrate acoustic metamaterial for mechanical tuning of sound propagation, Compos. Struct. 346 (2024) 118399.
[17] K. Liang, Y. Jing, X. Zhang, Design of broad quasi-zero stiffness platform metamaterials for vibration isolation, Int. J. Mech. Sci. 281 (2024) 109691.
[18] Z. Jia, Y. Bao, Y. Luo, D. Wang, X. Zhang, Z. Kang, Maximizing acoustic band gap in phononic crystals via topology optimization, Int. J. Mech. Sci. (2024) 109107.
[19] 刘姣姣, 付莉莉, 高超, 张晓鹏, 罗阳军, 变截面多稳态梁结构减振吸能分析与优化设计., Chinese J. Comput. Mech. Lixue Xuebao. 40 (2023).
[20] Y. Yan, X. Zhang, J. He, D. Wang, Y. Luo, Achieving desired nodal lines in freely vibrating structures via material-field series-expansion topology optimization, Front. Mech. Eng. 18 (2023) 42.
[21] Y. Wang, Z. Kang, X. Zhang, A velocity field level set method for topology optimization of piezoelectric layer on the plate with active vibration control, Mech. Adv. Mater. Struct. 30 (2023) 1326–1339.
[22] Z. Jia, Z. Sun, Q. Tian, Y. Luo, X. Zhang, S. Zhao, Z. Kang, Optimization design of all-angle negative refraction phononic crystals at a specified frequency, Mech. Syst. Signal Process. 205 (2023) 110824.
[23] K. Liang, Y. Wang, Y. Luo, A. Takezawa, X. Zhang, Z. Kang, Programmable and multistable metamaterials made of precisely tailored bistable cells, Mater. Des. 227 (2023) 111810.
[24] X. Zhang, Y. Li, Y. Wang, Y. Luo, Ultra-wide low-frequency bandgap design of acoustic metamaterial via multi-material topology optimization, Compos. Struct. 306 (2023) 116584.
[25] 梁宽, 付莉莉, 张晓鹏, 基于材料场级数展开的结构动力学拓扑优化, 航空学报. 43 (2022) 226002.
[26] H. Zhang, A. Takezawa, X. Ding, X. Zhang, S. Xu, H. Li, S. Nozawa, S. Nishiwaki, Robust topology optimization of biodegradable composite structures under uncertain degradation rates, Compos. Struct. 291 (2022) 115593.
[27] Y. Zhu, Y. Wang, X. Zhang, Z. Kang, A new form of forbidden frequency band constraint for dynamic topology optimization, Struct. Multidiscip. Optim. 65 (2022) 123.
[28] H. Zhang, X. Ding, W. Ni, Y. Chen, X. Zhang, H. Li, Concurrent Topology Optimization of Composite Plates for Minimum Dynamic Compliance, Materials (Basel). 15 (2022) 538.
[29] M. He, M. He, X. Zhang, L. Xia, Topology optimization of piezoelectric energy harvesters for enhanced open-circuit voltage subjected to harmonic excitations, Materials (Basel). 15 (2022) 4423.
[30] H. Guo, K. Ichikawa, H. Sakai, H. Zhang, X. Zhang, K. Tsuruta, K. Makihara, A. Takezawa, Numerical and experimental analysis of additively manufactured particle dampers at low frequencies, Powder Technol. 396 (2022) 696–709.
[31] Y. Li, Y. Luo, X. Zhang, Topological design of phononic crystals for multiple wide band gaps, J. Sound Vib. 529 (2022) 116962.
[32] K. Liang, J. He, Z. Jia, X. Zhang, Topology optimization of magnetorheological smart materials included PnCs for tunable wide bandgap design, Acta Mech. Sin. 38 (2022) 421525.
[33] Z. Jia, Y. Luo, A. Takezawa, X. Zhang, Topology optimization for realizing tailored self‐collimation in phononic crystals, Int. J. Numer. Methods Eng. 123 (2022) 4170–4182.
[34] M. He, X. Zhang, L. dos Santos Fernandez, A. Molter, L. Xia, T. Shi, Multi-material topology optimization of piezoelectric composite structures for energy harvesting, Compos. Struct. 265 (2021) 113783.
[35] K. Liang, Y. Luo, Z. Liu, X. Zhang, Z. Kang, Multi-electrode layout design of electrorheological composite plates considering energy consumption in semi-active control, Thin-Walled Struct. 165 (2021) 108001.
[36] P. Liu, Y. Yan, X. Zhang, Y. Luo, A MATLAB code for the material-field series-expansion topology optimization method, Front. Mech. Eng. 16 (2021) 607–622.
[37] P. Liu, Y. Yan, X. Zhang, Y. Luo, Z. Kang, Topological design of microstructures using periodic material-field series-expansion and gradient-free optimization algorithm, Mater. Des. 199 (2021) 109437.
[38] X. Zhang, Y. Luo, Y. Yan, P. Liu, Z. Kang, Photonic band gap material topological design at specified target frequency, Adv. Theory Simulations. 4 (2021) 2100125.
[39] Y. Yan, P. Liu, X. Zhang, Y. Luo, Photonic crystal topological design for polarized and polarization-independent band gaps by gradient-free topology optimization, Opt. Express. 29 (2021) 24861–24883.
[40] P. Liu, X. Zhang, Y. Luo, Topological design of freely vibrating bi-material structures to achieve the maximum band gap centering at a specified frequency, J. Appl. Mech. 88 (2021) 81003.
[41] H. Zhang, A. Takezawa, X. Ding, H. Guo, W. Ni, X. Zhang, Topology optimization of composite macrostructures comprising multi-phase viscoelastic composite microstructures for enhanced structural damping, Compos. Struct. 278 (2021) 114712.
[42] J. He, J. Sun, J. Fan, Z. Jia, X. Zhang, Optimal Designs of Phononic Crystal Microstructures Considering Point and Line Defects, Symmetry (Basel). 13 (2021) 1993.
[43] X. Zhang, Z. Jia, Y. Luo, Y. Wang, P. Liu, Z. Kang, A precisely‐controlled multichannel phononic crystal resonant cavity, Adv. Theory Simulations. 4 (2021) 2100250.
[44] X. Zhang, Y. Li, Y. Wang, Z. Jia, Y. Luo, Narrow-band filter design of phononic crystals with periodic point defects via topology optimization, Int. J. Mech. Sci. 212 (2021) 106829.
[45] X. Zhang, J. Xing, P. Liu, Y. Luo, Z. Kang, Realization of full and directional band gap design by non-gradient topology optimization in acoustic metamaterials, Extrem. Mech. Lett. 42 (2021) 101126.
[46] 林晔, 张晓鹏, 胡骏, 亢战, 压电智能结构拓扑优化研究进展, 固体力学学报. 41 (2020) 391–408.
[47] 张晓鹏, 康柯, 杨东生, 基于相场描述的拉压不对称强度结构拓扑优化., Chinese J. Comput. Mech. Lixue Xuebao. 37 (2020).
[48] A. Takezawa, X. Zhang, T. Tanaka, M. Kitamura, Topology optimisation of a porous unit cell in a fluid flow considering Forchheimer drag, Int. J. Comut. Fluid Dyn. 34 (2020) 50–60.
[49] J. Zhan, Y. Luo, X. Zhang, Z. Kang, A general assessment index for non-probabilistic reliability of structures with bounded field and parametric uncertainties, Comput. Methods Appl. Mech. Eng. 366 (2020) 113046.
[50] A. Takezawa, A.C. To, Q. Chen, X. Liang, F. Dugast, X. Zhang, M. Kitamura, Sensitivity analysis and lattice density optimization for sequential inherent strain method used in additive manufacturing process, Comput. Methods Appl. Mech. Eng. 370 (2020) 113231.
[51] A. Takezawa, T. Yamamoto, X. Zhang, K. Yamakawa, S. Nakano, M. Kitamura, An objective function for the topology optimization of sound-absorbing materials, J. Sound Vib. 443 (2019) 804–819.
[52] X. Zhang, A. Takezawa, Z. Kang, A phase-field based robust topology optimization method for phononic crystals design considering uncertain diffuse regions, Comput. Mater. Sci. 160 (2019) 159–172.
[53] A. Takezawa, X. Zhang, M. Kato, M. Kitamura, Method to optimize an additively-manufactured functionally-graded lattice structure for effective liquid cooling, Addit. Manuf. 28 (2019) 285–298.
[54] X. Zhang, A. Takezawa, Z. Kang, Robust topology optimization of vibrating structures considering random diffuse regions via a phase-field method, Comput. Methods Appl. Mech. Eng. 344 (2019) 766–797.
[55] Z. Liu, S. Cho, A. Takezawa, X. Zhang, M. Kitamura, Two-stage layout–size optimization method for prow stiffeners, Int. J. Nav. Archit. Ocean Eng. 11 (2019) 44–51.
[56] A. Takezawa, X. Zhang, Y. Koizumi, Numerical study on the effective stiffness of topology-optimized lattice structures made of orthotropic crystal grains with optimal orientation, Comput. Mater. Sci. 159 (2019) 202–209.
[57] X. Suo, Z. Kang, X. Zhang, Y. Wang, Bi-material Topology Optimization Using Analysis Mesh-Independent Point-Wise Density Interpolation, Acta Mech. Solida Sin. 32 (2019) 698–712.
[58] A. Takezawa, X. Zhang, M. Kitamura, Optimization of an additively manufactured functionally graded lattice structure with liquid cooling considering structural performances, Int. J. Heat Mass Transf. 143 (2019) 118564.
[59] X. Zhang, A. Takezawa, Z. Kang, Topology optimization of piezoelectric smart structures for minimum energy consumption under active control, Struct. Multidiscip. Optim. 58 (2018) 185–199.
[60] A. Takezawa, K. Takenaka, X. Zhang, Inverse analysis of giant macroscopic negative thermal expansion of Ca2RuO4− y ceramics based on elasticity and structural topology optimization, Appl. Phys. Express. 11 (2018) 55801.
[61] J. Hu, X. Zhang, Z. Kang, Layout design of piezoelectric patches in structural linear quadratic regulator optimal control using topology optimization, J. Intell. Mater. Syst. Struct. 29 (2018) 2277–2294.
[62] A. Takezawa, K. Yonekura, Y. Koizumi, X. Zhang, M. Kitamura, Isotropic Ti–6Al–4V lattice via topology optimization and electron-beam melting, Addit. Manuf. 22 (2018) 634–642.
[63] X. Zhang, J. He, A. Takezawa, Z. Kang, Robust topology optimization of phononic crystals with random field uncertainty, Int. J. Numer. Methods Eng. 115 (2018) 1154–1173. https://doi.org/10.1002/nme.5839.
[64] M. Li, Y. Niu, H. Wu, X. Zhang, Y. Luo, Z. Kang, Wrinkling and wrinkling-suppression in graphene membranes with frozen zone, Thin Solid Films. 638 (2017) 345–353.
[65] X. Zhang, Z. Kang, W. Zhang, Robust topology optimization for dynamic compliance minimization under uncertain harmonic excitations with inhomogeneous eigenvalue analysis, Struct. Multidiscip. Optim. 54 (2016) 1469–1484.
[66] X. Zhang, Z. Kang, Vibration suppression using integrated topology optimization of host structures and damping layers, J. Vib. Control. 22 (2016) 60–76.
[67] 王睿, 张晓鹏, 吴良武, 亢战, 考虑瞬态响应的薄板结构阻尼材料层拓扑优化, 工程力学. 32 (2015) 1–7.
[68] R. WANG, X. ZHANG, L. WU, Z. KANG, Topology optimization of damping layer in thin-plate structures considering transient response, 工程力学. 32 (2015) 1–7.
[69] X. Zhang, Z. Kang, Topology optimization of magnetorheological fluid layers in sandwich plates for semi-active vibration control, Smart Mater. Struct. 24 (2015) 85024. https://doi.org/10.1088/0964-1726/24/8/085024.
[70] Y. Wang, Z. Luo, X. Zhang, Z. Kang, Topological design of compliant smart structures with embedded movable actuators, Smart Mater. Struct. 23 (2014) 45024.
[71] X. Zhang, Z. Kang, Topology optimization of piezoelectric layers in plates with active vibration control, J. Intell. Mater. Syst. Struct. 25 (2014) 697–712.
[72] X. Zhang, Z. Kang, M. Li, Topology optimization of electrode coverage of piezoelectric thin-walled structures with CGVF control for minimizing sound radiation, Struct. Multidiscip. Optim. 50 (2014) 799–814.
[73] X. Zhang, Z. Kang, Dynamic topology optimization of piezoelectric structures with active control for reducing transient response, Comput. Methods Appl. Mech. Eng. 281 (2014) 200–219.
[74] 王睿, 张晓鹏, 亢战, 以动柔度为目标的结构阻尼材料层拓扑优化, 振动与冲击. 32 (2013) 36–40.
[75] W. Rui, Z. Xiaopeng, K. Zhan, Topology optimization of damping layer in structures for minimizing dynamic compliance, J. Vib. Shock. 32 (2013) 36–40.
[76] X. Meng, M. Li, Z. Kang, X. Zhang, J. Xiao, Mechanics of self-folding of single-layer graphene, J. Phys. D. Appl. Phys. 46 (2013) 55308.
[77] X. Zhang, Z. Kang, Topology optimization of damping layers for minimizing sound radiation of shell structures, J. Sound Vib. 332 (2013) 2500–2519.
[78] Z. Kang, X. Zhang, S. Jiang, G. Cheng, On topology optimization of damping layer in shell structures under harmonic excitations, Struct. Multidiscip. Optim. 46 (2012) 51–67.