杜宗亮，工学博士，副教授，硕士生导师。入选开云平台首页 第五批“星海青千引进计划”。

当前研究兴趣为固体力学、计算力学及前沿交叉领域，包括：结构优化、拓扑力学、基于机器学习的建模与力学分析、非光滑力学等。在固体力学旗舰期刊Journal of the Mechanics of Physics and Solids,计算力学旗舰期刊Computers and Methods in Applied Mechanics and Engineering,应用物理旗舰期刊Physical Review Letters等杂志发表SCI论文40余篇，英文书章1章，谷歌学术引用1300余次。

曾获得亚洲结构与多学科优化学会青年科学家奖（ACSMO Young Scientist Award），大连市青年科技之星，开云平台首页 青年教师讲课竞赛二等奖、运载工程与力学学部青年教师讲课竞赛一等奖等。

工作经历

2020.1 -至今开云平台首页工程力学系副教授

2019.1 - 2019.12密苏里大学哥伦比亚校区机械航天系博士后研究员（合作导师：Guoliang Huang教授）

2017.1 - 2018.12加州大学圣地亚哥校区结构工程系博士后研究员（合作导师：H. Alicia Kim教授）

教育经历

2009.9 - 2016.12开云平台首页工程力学系工学博士（导师：郭旭教授）

2005.9 - 2009.6开云平台首页工程力学系工学学士

招收硕士研究生专业

固体力学、计算力学、工程力学

欢迎力学、物理、机械、计算机、数学等相关方向同学加入课题组共同奋斗！

学术兼职

·《力学进展》青年编委（2020-2025）

·《应用力学学报》青年编委（2022-2024）

·《SN Applied Sciences》编委（2021-）

·《Frontiers in Physics》review editor（2021-）

·美国数学学会Mathematical Reviews评论员

·Computers and Methods in Applied Mechanics and Engineering, Structural and Multidisciplinary Optimization, Additive Manufacturing, Materials & Design, Proceedings of the Royal Society A, Journal of Mechanical Design-ASME, Composite Structures, Wave Motion, Acta Mechanica Sinica等学术期刊审稿人

主讲课程

Mechanics of Plates and Shells本科生英语授课48学时

科研项目

·国家自然科学基金青年项目，基于结构拓扑优化的最优力学拓扑绝缘体设计，2021-2023，主持

·航空科学基金，基于显式拓扑优化框架的智能柔性结构设计理论与方法，2020-2022，主持

·大连市高层次人才创新支持计划（青年科技之星），三维力学拓扑绝缘体优化设计及波动调控，2021-2022，主持

·技术开发项目，兆瓦级海上风机主承载部件减重拓扑优化设计，2022-2024，主持

·技术开发项目，空气舵快速设计优化软件，2020-2022，主持

·开云平台首页 引进人才专题，基于机器学习的最优力学拓扑绝缘体设计，2020-2022，主持

·国家重点研发计划，结构拓扑优化核心算法研究与集成，2020-2023，参与

学术论文(*代表通讯作者，#代表共同第一作者)

·G. Su,Z. Du, P. Jiang, Y. Liu*.High-efficiency wavefront manipulation in thin plates using elastic metasurfaces beyond the generalized Snell’s law.Mech. Syst. Signal Process.,179(2022), 109391.

·X. Jiang, C. Liu*,Z. Du, W. Huo, X. Zhang, F. Liu, X. Guo*. A unified framework for explicit layout/topology optimization of thin-walled structures based on Moving Morphable Components (MMC) method and adaptive ground structure approach.Comput. Methods Appl. Mech. Engrg., 396(2022), 115047.

·L. Li, C. Liu*,Z. Du, W. Zhang, X. Guo*. A meshless moving morphable component-based method for structural topology optimization without weak material.Acta Mech. Sin., 38(2022), 421445.

·J. Li, Y. Zhang*,Z. Du, C. Liu, W. Zhang, X Guo, X. Guo*. A moving morphable component-based topology optimization approach considering transient structural dynamic responses.Int. J. Numer. Methods Engrg., 123(2022), 705-728.

·T. Cui,Z. Du*, C. Liu, Z. Sun, X. Guo*. Explicit topology optimization with moving morphable component (MMC) introduction mechanism.Acta Mech. Solida Sin., 35(2022), 384–408.

·W. Huo, C. Liu*,Z. Du, X. Jiang, Z. Liu, X. Guo*. Topology optimization on complex surfaces based on the moving morphable component (MMC) method and computational conformal mapping (CCM).J. Appl. Mech., 89(2022), 051008.

·Z. Du, T. Cui, C. Liu, W. Zhang, Y. Guo, X. Guo*. An efficient and easy-to-extend Matlab code of the Moving Morphable Component (MMC) method for three-dimensional topology optimization.Struct. Multidisc. Optim., 65(2022), 158.

·J. Luo,Z. Du*, Y. Guo, C. Liu, W. Zhang, X. Guo*. Multi-class, multi-functional design of photonictopological insulators by rational symmetry-indicators engineering.Nanophotonics, 10(2021), 4523-4531.

·X. Guo*,Z. Du, C. Liu, S. Tang. A new uncertainty analysis-based framework for data-driven computational mechanics.J. Appl. Mech.,88(2021), 111003.

·L. Lin, C. Liu*, W. Zhang,Z. Du, X. Guo*. Combined model-based topology optimization of stiffened plate structures via MMC approach.Int. J. Mech. Sci.,208(2021), 106682.

·H.Chung*,Z.Du. Optimized design of multi-material cellular structures by level-set method with Guyan reduction.J. Mech. Des., 143(2021), 101702.

·J. Luo,Z. Du*, C. Liu*, Y. Mei, W. Zhang, X. Guo. Moving morphable components-based inverse design formulation for quantum valley/spin hall insulators.Extreme Mech. Lett.,45(2021), 101276.

·C. Liu,Z. Du*, W. Zhang, X. Zhang, Y. Mei, X. Guo*.Design of optimized architected structures with exact size and connectivity via an enhanced multidomain topology optimization strategy.Comput. Mech., 67(2021), 743-762.

·Y. Mei,Z. Du, D. Zhao, W. Zhang, C. Liu*, X. Guo*. Moving morphable inclusion approach: an explicit framework to solve inverse problem in elasticity.J. Appl. Mech.,88(2021), 041001.

·Z. Du#, G. Zhang#, T. Guo, S. Tang*, X. Guo*. Tension-compression asymmetry at finite strains: A theoretical model and exact solutions.J. Mech. Phys. Solids,143(2020), 104084.

·C. Liu,Z. Du*, Y. Zhu, W. Zhang, X. Zhang, X. Guo*.Optimal design of shell-graded-infill structures by a hybrid MMC-MMV approach.Comput. Methods Appl. Mech. Engrg.,369(2020), 113187.

·X. Xu#, C. Wang#, W. Shou#,Z. Du, Y. Chen, B. Li, W. Matusik, N. Hussein*, G. Huang*. Physical realization of elastic cloaking with a polar material.Phys. Rev. Lett., 124(2020), 114301.

·L. Li*,Z. Du,H. A. Kim. Design of architected materials for thermoelastic macrostructures using level set method.JOM, 72(2020), 1734-1744.

·Z. Du#, H. Chen#, G. Huang*. Optimal quantum valley Hall insulators by rationally engineering Berry curvature and band structure.J. Mech. Phys. Solids, 135(2020), 103784.

·X.-Y. Zhou*,Z. Du, H. A. Kim. A level set shape metamorphosis with mechanical constraints for geometrically graded microstructures.Struct . Multidisc. Optim., 60(2019), 1-16.

·Y. Zhu, S. Li,Z. Du, C. Liu, X. Guo*, W. Zhang*. A novel asymptotic-analysis-based homogenisation approach towards fast design of infill graded microstructures.J. Mech. Phys. Solids, 124(2019), 612-633.

·Z. Du, W. Zhang, Y. Zhang, R. Xue, X. Guo*. Structural topology optimization involving bi-modulus materials with asymmetric properties in tension and compression.Comput. Mech., 63(2019), 335-363.

·R. Xue, C. Liu, W. Zhang, Y. Zhu, S. Tang,Z. Du*, X. Guo*. Explicit structural topology optimization under finite deformation via Moving Morphable Void (MMV) approach.Comput. Methods Appl. Mech. Engrg., 344(2019), 798-818.

·X. Lei, C. Liu*,Z. Du, W. Zhang, X. Guo*. Machine learning-driven real-time topology optimization under moving morphable component-based framework.J. App. Mech., 86(2019), 011004.

·C. Liu, Y. Zhu, Z. Sun, D. Li,Z. Du*, W. Zhang, X. Guo*. An efficient moving morphable component (MMC)-based approach for multi-resolution topology optimization.Struct . Multidisc. Optim., 58(2018), 2455-2479.

·Z. Du*, X.-Y. Zhou, R. Picelli, H. A. Kim. Connecting microstructures for multiscale topology optimization with connectivity index constraints.J. Mech. Des.-Special Issue, 140(2018), 111417.

·W. Zhang*, Y. Liu,Z. Du, Y. Zhu, X. Guo*. A moving morphable component based topology optimization approach for rib-stiffened structures considering buckling constraints.J. Mech. Des.- Special Issue, 140(2018), 111404.

·J. Du,Z. Du*, Y. Wei, W. Zhang, X. Guo*. Exact response bound analysis of truss structures via linear mixed 0‐1 programming and sensitivity bounding technique.Int. J. Numer. Methods Engrg., 116(2018), 21-42.

·Z. Sun#, T. Cui#, Y. Zhu, W. Zhang, S. Shi, S. Tang,Z. Du, C. Liu, R. Cui, H. Chen, X. Guo*. The mechanical principles behind the golden ratio distribution of veins in plant leaves.Sci. Rep., 8(2018), 13859.

·W. Zhang, D. Li, J. Zhou,Z. Du, B. Li, X. Guo*. A moving morphable void (MMV)-based explicit approach for topology optimization considering stress constraints.Comput. Methods Appl. Mech. Engrg.,334(2018), 381-413.

·W. Zhang, J. Song, J. Zhou,Z. Du, Y. Zhu, Z. Sun, X. Guo*. Topology optimization with multiple materials via moving morphable component (MMC) method.Int. J. Numer. Methods Engrg., 113(2018), 1653-1675.

·R. Xue, R. Li,Z. Du*, W. Zhang, Y. Zhu, Z. Sun, X. Guo*. Kirigami pattern design of mechanically driven formation of complex 3D structures through topology optimization.Extreme Mech. Lett., 15(2017), 139-144.

·X. Guo*, J. Zhou, W. Zhang*,Z. Du, C. Liu, Y. Liu. Self-supporting structure design in additive manufacturing through explicit topology optimization.Comput. Methods Appl. Mech. Engrg., 323(2017), 27-63.

·C. Liu,Z. Du, W. Zhang, Y. Zhu, X. Guo*. Additive manufacturing-oriented design of graded lattice structures through explicit topology optimization.J. Appl. Mech., 84(2017), 081008.

·W. Zhang,Z. Du, G. Sun, X. Guo*. A level set approach for damage identification of continuum structures based on dynamic responses.J. Sound. Vib., 386(2017), 100-115.

·Z. Du, Y. Zhang, W. Zhang, X. Guo*. A new computational framework for materials with different mechanical responses in tension and compression and its applications.Int. J. Solids Struct., 100-101(2016), 54-73.

·Z. Du, X. Guo*. Symmetry analysis for structural optimization problems involving reliability measure and bi-modulus materials.Struct. Multidisc. Optim., 53(2016), 973-984.

·C. Liu,Z. Du, Z. Sun, H. Gao, X. Guo*. Frequency-preserved acoustic diode model with high forward-power-transmission rate.Phys. Rev. Applied, 3(2015), 064014.

·D. Yang*, G. Chen,Z. Du. Direct kinematic method for exactly constructing influence lines of forces of statically indeterminate structures.Struct. Eng. Mech., 54(2015), 793-807.

·Z. Du, X. Guo*. Variational principles and the related bounding theorems for bi-modulus materials.J. Mech. Phys. Solids, 73(2014), 183-211.

·X. Guo*,Z. Du, G. Cheng. A confirmation of a conjecture on the existence of symmetric optimal solution under multiple loads.Struct. Multidisc. Optim., 50(2014), 659-661.

·X. Guo*,Z. Du, G. Cheng*, C. Ni. Symmetry properties in structural optimization: some extensions.Struct. Multidisc. Optim., 47(2013), 783-794.

·X. Guo*, C. Ni, G. Cheng*,Z. Du. Some symmetry results for optimal solutions in structural optimization.Struct. Multidisc. Optim., 46(2012), 631-645.

专著书章

·X. Guo*, W. Zhang,Z. Du. Topology Optimization Based on Explicit Geometry Description, inEncyclopedia of Continuum Mechanics, Springer-Verlag, 2020.