郭旭 - 大连理工大学 - 工业装备结构分析国家重点实验室

个人简介

教育经历 1992/9 – 1998/1, 大连理工大学，工程力学，博士、硕士（导师：程耿东院士） 1988/9 – 1992/7, 大连理工大学，工程力学，学士工作履历 2013/11– 至今, 大连理工大学工程力学系，系主任、工业装备结构分析国家重点实验室副主任 2005/6 – 至今, 大连理工大学工程力学系，教授 2004/7 –2005/6, 德国马普学会金属研究所，访问学者 2001/4 –2005/6, 大连理工大学工程力学系，副教授 2000/10–2001/3, 大连理工大学工程力学系，讲师 1998/10–2000/9, 日本国金泽大学人间机械工学部，博士后奖励荣誉徐芝纶力学奖，2021 “兴辽英才计划”杰出人才，2021 辽宁省杰出科技工作者，2021 全国创新争先奖，2020 复杂约束下结构优化设计理论与方法研究，国家自然科学二等奖，2019（第一完成人）结构拓扑优化中奇异最优解的研究，国家自然科学二等奖，2006（第二完成人）国际华人计算力学学会成就奖，2018 亚洲结构与多学科优化学会成就奖，2018 复杂约束下结构优化设计理论与方法研究，教育部自然科学一等奖，2018（第一完成人）复杂约束下结构优化设计理论与方法研究，中国力学自然科学一等奖，2017（第一完成人）第二批国家“万人计划”领军人才，2016 第十二届大连市十大杰出青年，2015 第九届辽宁省优秀科技工作者，2014 中青年科技创新领军人才，2014 第十二届中国青年科技奖，2011 CADLM Prize Intelligent Optimal Design，2010 辽宁省第五批“百千万人才工程”百人层次人选，2009 中国力学学会第十一届青年科技奖，2009 国家杰出青年基金，2009 结构拓扑优化中奇异最优解的研究，辽宁省自然科学一等奖，2005 第五届辽宁省青年科技奖十大英才，2005 结构拓扑优化中奇异最优解的研究，教育部科学技术一等奖，2003 （第二完成人）

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. W Zhang, Z Xiao, C Liu, Y Mei, SK Youn, X Guo*. A scaled boundary finite element based explicit topology optimization approach for three-dimensional structures. International Journal for Numerical Methods in Engineering 2020. https://doi.org/10.1002/nme.6498. 2. Z Du, G Zhang, T Guo, S Tang, X Guo*. Tension-compression asymmetry at finite strains: A theoretical model and exact solutions. Journal of the Mechanics and Physics of Solids 2020, 143, 104084. 3. Z Zhang, P Gea, T Lib, LE Lindgren, WW Liu, GZ Zhao, X Guo. Electromagnetic wave-based analysis of laser–particle interactions in directed energy deposition additive manufacturing. Additive Manufacturing 2020, 34, 101284. 4. 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. Computer Methods in Applied Mechanics and Engineering 2020, 369, 113187. 5. D Xue, Y Zhu, X Guo*. Generation of smoothly-varying infill configurations from a continuous menu of cell patterns and the asymptotic analysis of its mechanical behavior. Computer Methods in Applied Mechanics and Engineering 2020, 366, 113037. 6. W Zhang, S Jiang, C Liu, D Li, P Kang, SK Youn, X Guo*. Stress-related topology optimization of shell structures using IGA/TSA-based Moving Morphable Void (MMV) approach. Computer Methods in Applied Mechanics and Engineering 2020, 366, 113036. 7. S Tang, Y Li, H Qiu, H Yang, S Saha, S Mojumder, WK Liu, X Guo*. MAP123-EP: A mechanistic-based data-driven approach for numerical elastoplastic analysis. Computer Methods in Applied Mechanics and Engineering 2020, 364, 112955. 8. W Zhang, D Li, P Kang, X Guo*, SK Youn. Explicit topology optimization using IGA-based moving morphable void (MMV) approach. Computer Methods in Applied Mechanics and Engineering 2020, 360, 112685. 9. X Guo*, B Ma, Y Zhu. A magnification-based multi-asperity (MBMA) model of rough contact without adhesion. Journal of the Mechanics and Physics of Solids 2019, 133, 103724. 10. G Zhang, TF Guo, X Guo*, S Tang, M Fleming, W Liu. Fracture in tension–compression-asymmetry solids via phase field modeling. Computer Methods in Applied Mechanics and Engineering 2019, 357, 112573. 11. S Tang, G Zhang, H Yang, Y Li, W Liu, X Guo*. MAP123: A data-driven approach to use 1D data for 3D nonlinear elastic materials modeling. Computer Methods in Applied Mechanics and Engineering 2019, 357, 112587. 12. H Yang, X Guo*, S Tang, W Liu. Derivation of heterogeneous material laws via data-driven principal component expansions. Computational Mechanics 2019, 64 (2), 365-379. 13. G Zhang, TF Guo, Z Zhou, S Tang, X Guo*. A phase-field model for fracture in water-containing soft solids. Engineering Fracture Mechanics 2019, 212, 180-196. 14. S Tang, G Zhang, TF Guo, X Guo*, W Liu. Phase field modeling of fracture in nonlinearly elastic solids via energy decomposition. Computer Methods in Applied Mechanics and Engineering 2019, 347, 477-494. 15. 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. Journal of the Mechanics and Physics of Solids 2019, 124, 612-633. 16. Z Du, W Zhang, Y Zhang, R Xue, X Guo*. Structural topology optimization involving bi-modulus materials with asymmetric properties in tension and compression. Computational Mechanics 2019, 63 (2), 335-363. 17. 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. Computer Methods in Applied Mechanics and Engineering 2019, 344, 798-818. 18. X Lei, C Liu, Z Du, W Zhang, X Guo*. Machine learning-driven real-time topology optimization under moving morphable component-based framework. Journal of Applied Mechanics 2019, 86 (1), 011004. 19. 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. Structural and Multidisciplinary Optimization 2018, 58 (6), 2455-2479. 20. 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. International Journal for Numerical Methods in Engineering 2018, 116 (1), 21-42. 21. 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. Computer Methods in Applied Mechanics and Engineering 2018, 334, 381-413. 22. Y Zhu, J Luo, X Guo*, Y Xiang, S Chapman. Role of grain boundaries under long-time radiation. Physical Review Letters 2018, 120 (22), 222501. 23. F Jin, X Guo, Q Wan. Plane contact and adhesion of two elastic solids with an interface groove. Journal of Applied Mechanics 2018, 85 (4), 041002. 24. 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. International Journal for Numerical Methods in Engineering 2018, 113 (11), 1653-1675. 25. Y Zhu, Y Wei, X Guo*. Gurtin-Murdoch surface elasticity theory revisit: An orbital-free density functional theory perspective. Journal of the Mechanics and Physics of Solids 2017, 109, 178-197. 26. W Zhang, J Zhou, Y Zhu, X Guo*. Structural complexity control in topology optimization via moving morphable component (MMC) approach. Structural and Multidisciplinary Optimization 2017, 56 (3), 535-552. 27. W Zhang, Y Liu, P Wei, Y Zhu, X Guo*. Explicit control of structural complexity in topology optimization. Computer Methods in Applied Mechanics and Engineering 2017, 324, 149-169. 28. X Guo*, J Zhou, W Zhang, Z Du, C Liu, Y Liu. Self-supporting structure design in additive manufacturing through explicit topology optimization. Computer Methods in Applied Mechanics and Engineering 2017, 323, 27-63. 29. Y Zhu, J Wang, Y Xiang, X Guo*. A three-scale homogenisation approach to the prediction of long-time absorption of radiation induced interstitials by nanovoids at interfaces. Journal of the Mechanics and Physics of Solids 2017, 105, 1-20. 30. C Liu, Z Du, W Zhang, Y Zhu, X Guo*. Additive manufacturing-oriented design of graded lattice structures through explicit topology optimization. Journal of Applied Mechanics 2017, 84 (8), 081008. 31. W Zhang, J Chen, X Zhu, J Zhou, D Xue, X Lei, X Guo*. Explicit three dimensional topology optimization via Moving Morphable Void (MMV) approach. Computer Methods in Applied Mechanics and Engineering 2017, 322, 590-614. 32. Z Sun, D Li, W Zhang, S Shi, X Guo*. Topological optimization of biomimetic sandwich structures with hybrid core and CFRP face sheets. Composites Science and Technology 2017, 142, 79-90. 33. W Zhang, D Li, J Yuan, J Song, X Guo*. A new three-dimensional topology optimization method based on moving morphable components (MMCs). Computational Mechanics 2017, 59 (4), 647-665. 34. W Zhang, Z Du, G Sun, X Guo*. A level set approach for damage identification of continuum structures based on dynamic responses. Journal of Sound and Vibration 2017, 386, 100-115. 35. W Zhang, W Yang, J Zhou, D Li, X Guo*. Structural topology optimization through explicit boundary evolution. Journal of Applied Mechanics 2017, 84 (1), 011011. 36. F Jin, Q Wan, X Guo*. A double-Westergaard model for adhesive contact of a wavy surface. International Journal of Solids and Structures 2016, 102, 66-76. 37. 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. International Journal of Solids and Structures 2016, 100, 54-73. 38. W Zhang, D Li, J Zhang, X Guo*. Minimum length scale control in structural topology optimization based on the moving morphable components (MMC) approach. Computer Methods in Applied Mechanics and Engineering 2016, 311, 327-355. 39. X Guo*, W Zhang, J Zhang, J Yuan. Explicit structural topology optimization based on moving morphable components (MMC) with curved skeletons. Computer Methods in Applied Mechanics and Engineering 2016, 310, 711-748. 40. F Jin, X Guo, Q Wan. Revisiting the Maugis–Dugdale adhesion model of elastic periodic wavy surfaces. Journal of Applied Mechanics 2016, 83 (10), 101007. 41. W Zhang, J Yuan, J Zhang, X Guo*. A new topology optimization approach based on Moving Morphable Components (MMC) and the ersatz material model. Structural and Multidisciplinary Optimization 2016, 53 (6), 1243-1260. 42. Z Du, X Guo*. Symmetry analysis for structural optimization problems involving reliability measure and bi-modulus materials. Structural and Multidisciplinary Optimization 2016, 53 (5), 973-984. 43. W Zhang, J Zhang, X Guo*. Lagrangian description based topology optimization—a revival of shape optimization. Journal of Applied Mechanics 2016, 83 (4), 041010. 44. F Jin, W Zhang, Q Wan, X Guo*. Adhesive contact of a power-law graded elastic half-space with a randomly rough rigid surface. International Journal of Solids and Structures 2016, 81, 244-249. 45. J Yan, X Guo*, G Cheng. Multi-scale concurrent material and structural design under mechanical and thermal loads. Computational Mechanics 2016, 57 (3), 437-446. 46. F Jin, Q Wan, X Guo*. Plane contact and partial slip behaviors of elastic layers with randomly rough surfaces. Journal of Applied Mechanics 2015, 82 (9), 091006. 47. C Liu, Z Du, Z Sun, H Gao, X Guo*. Frequency-preserved acoustic diode model with high forward-power-transmission rate. Physical Review Applied 2015, 3 (6), 064014. 48. W Zhang, W Zhong, X Guo*. Explicit layout control in optimal design of structural systems with multiple embedding components. Computer Methods in Applied Mechanics and Engineering 2015, 290, 290-313. 49. X Guo*, X Zhao, W Zhang, J Yan, G Sun. Multi-scale robust design and optimization considering load uncertainties. Computer Methods in Applied Mechanics and Engineering 2015, 283, 994-1009. 50. Z Du, X Guo*. Variational principles and the related bounding theorems for bi-modulus materials. Journal of the Mechanics and Physics of Solids 2014, 73, 183-211. 51. W Zhang, W Zhong, X Guo*. An explicit length scale control approach in SIMP-based topology optimization. Computer Methods in Applied Mechanics and Engineering 2014, 282, 71-86. 52. H Yang, F Fan, W Liang, X Guo, T Zhu, S Zhang. A chemo-mechanical model of lithiation in silicon. Journal of the Mechanics and Physics of Solids 2014, 70, 349-361. 53. X Guo*, Z Du, G Cheng. A confirmation of a conjecture on the existence of symmetric optimal solution under multiple loads. Structural and Multidisciplinary Optimization 2014, 50 (4), 659-661. 54. X Guo*, W Zhang, W Zhong. Doing topology optimization explicitly and geometrically—a new moving morphable components based framework. Journal of Applied Mechanics 2014, 81 (8), 081009. 55. F Jin, W Zhang, S Zhang, X Guo*. Adhesion between elastic cylinders based on the double-Hertz model. International Journal of Solids and Structures 2014, 51 (14), 2706-2712. 56. W Zhang, F Jin, S Zhang, X Guo*. Adhesive contact on randomly rough surfaces based on the double-Hertz model. Journal of Applied Mechanics 2014, 81 (5), 051008. 57. X Guo*, W Zhang, W Zhong. Explicit feature control in structural topology optimization via level set method. Computer Methods in Applied Mechanics and Engineering 2014, 272, 354-378. 58. X Wang, X Guo*, Z Su. A quasi-continuum model for human erythrocyte membrane based on the higher order Cauchy–Born rule. Computer Methods in Applied Mechanics and Engineering 2014, 268, 284-298. 59. X Guo*, W Zhang, W Zhong. Stress-related topology optimization of continuum structures involving multi-phase materials. Computer Methods in Applied Mechanics and Engineering 2014, 268, 632-655. 60. F Jin, X Guo*, H Gao. Adhesive contact on power-law graded elastic solids: the JKR–DMT transition using a double-Hertz model. Journal of the Mechanics and Physics of Solids 2013, 61 (12), 2473-2492. 61. 张维声, 孙国, 郭旭*, 单鹏. 基于水平集描述的结构拓扑与构件布局联合优化新方法. 工程力学 2013, 30 (7), 22-27. 62. F Jin, X Guo*, W Zhang. A unified treatment of axisymmetric adhesive contact on a power-law graded elastic half-space. Journal of Applied Mechanics 2013, 80 (6), 061024. 63. F Jin, X Guo*. Mechanics of axisymmetric adhesive contact of rough surfaces involving power-law graded materials. International Journal of Solids and Structures 2013, 50 (20-21), 3375-3386. 64. X Guo*, Z Du, G Cheng, C Ni. Symmetry properties in structural optimization: some extensions. Structural and Multidisciplinary Optimization 2013, 47 (6), 783-794. 65. W Zhang, X Guo, M Wang, P Wei. Optimal topology design of continuum structures with stress concentration alleviation via level set method. International Journal for Numerical Methods in Engineering 2013, 93(9), 942-959. 66. X Guo*, W Zhang, L Zhang. Robust structural topology optimization considering boundary uncertainties. Computer Methods in Applied Mechanics and Engineering 2013, 253, 356-368. 67. X Guo*, C Ni, G Cheng, Z Du. Some symmetry results for optimal solutions in structural optimization. Structural and Multidisciplinary Optimization 2012, 46 (5), 631-645. 68. F Jin, X Guo*. Mode-mixity-dependent adhesion of power-law graded elastic solids under normal load and substrate stretch-induced mismatch strain. International Journal of Solids and Structures 2012, 49 (17), 2349-2357. 69. 杜剑明, 张维声, 郭旭*. 基于SAND列式的桁架结构优化问题序列线性规划算法. 工程力学 2012, 29 (3), 21-26. 70. X Guo*, W Zhang, M Wang, P Wei. Stress-related topology optimization via level set approach. Computer Methods in Applied Mechanics and Engineering 2011, 200 (47-48), 3439-3452. 71. X Guo*, F Jin, H Gao. Mechanics of non-slipping adhesive contact on a power-law graded elastic half-space. International Journal of Solids and Structures 2011, 48 (18), 2565-2575. 72. X Guo*, J Du, X Gao. Confidence structural robust optimization by non‐linear semidefinite programming‐based single‐level formulation. International Journal for Numerical Methods in Engineering 2011, 86 (8), 953-974. 73. X Guo*, Y Xia. Repulsive force vs. source number: Competing mechanisms in the yield of twinned gold nanowires of finite length. Acta Materialia 2011, 59 (6), 2350-2357. 74. X Guo, G Cheng. Recent development in structural design and optimization. Acta Mechanica Sinica 2010, 26 (6), 807-823. 75. Y Kanno, X Guo. A mixed integer programming for robust truss topology optimization with stress constraints. International Journal for Numerical Methods in Engineering 2010, 83 (13), 1675-1699. 76. F Jin, X Guo*. Non-slipping adhesive contact of a rigid cylinder on an elastic power-law graded half-space. International Journal of Solids and Structures 2010, 47 (11-12), 1508-1521. 77. X Guo*, T Zhang. A study on the bending stiffness of single-walled carbon nanotubes and related issues. Journal of the Mechanics and Physics of Solids 2010, 58 (3), 428-443. 78. X Guo*, F Jin. A generalized JKR-model for two-dimensional adhesive contact of transversely isotropic piezoelectric half-space. International Journal of Solids and Structures 2009, 46 (20), 3607-3619. 79. X Guo*, W Bai, W Zhang, X Gao. Confidence structural robust design and optimization under stiffness and load uncertainties. Computer Methods in Applied Mechanics and Engineering 2009, 198 (41-44), 3378-3399. 80. X Guo*, W Bai, W Zhang. Extreme structural response analysis of truss structures under material uncertainty via linear mixed 0–1 programming. International Journal for Numerical Methods in Engineering 2008, 76 (3), 253-277. 81. J Wang, X Guo, H Zhang, L Wang, JB Liao. Energy and mechanical properties of single-walled carbon nanotubes predicted using the higher order Cauchy-Born rule. Physical Review B 2006, 73 (11), 115428. 82. X Guo, J Wang, H Zhang. Mechanical properties of single-walled carbon nanotubes based on higher order Cauchy–Born rule. International Journal of Solids and Structures 2006, 43 (5), 1276-1290. 83. H Zhang, J Wang, X Guo*. Predicting the elastic properties of single-walled carbon nanotubes. Journal of the Mechanics and Physics of Solids 2005, 53 (9), 1929-1950. 84. X Guo, G Cheng, N Olhoff. Optimum design of truss topology under buckling constraints. Structural and Multidisciplinary Optimization 2005, 30 (3), 169-180. 85. 郭旭*, 赵康. 拓扑相关荷载作用下结构拓扑优化的水平集方法. 工程力学 2005, 22 (5), 69-77. 86. 赵康, 郭旭*, 丁佳. 基于拓扑描述函数的特定性能复合材料设计. 力学学报 2005, 37 (5), 586-592. 87. 郭旭, 王晋宝, 张洪武. 基于高阶Cauchy-Born准则的单壁碳纳米管本构模型. 计算力学学报 2005, 22 (2), 135-140. 88. 郭旭*, 赵康. 基于拓扑描述函数的连续体结构拓扑优化方法. 力学学报 2004, 36 (5), 520-526. 89. 郭旭, 顾元宪, 赵康. 广义变分原理的结构形状优化伴随法灵敏度分析. 力学学报 2004, 36 (3), 288-295. 90. X Guo*, G Cheng, K Yamazaki. A new approach for the solution of singular optima in truss topology optimization with stress and local buckling constraints. Structural and Multidisciplinary Optimization 2001, 22 (5), 364-373. 91. X Guo*, K Yamazaki, G Cheng. A new three‐point approximation approach for design optimization problems. International Journal for Numerical Methods in Engineering 2001, 50 (4), 869-884. 92. X Guo*, G Cheng. An extrapolation approach for the solution of singular optima. Structural and Multidisciplinary Optimization 2000, 19 (4), 255-262. 93. G Cheng, X Guo. ɛ-relaxed approach in structural topology optimization. Structural Optimization 1997, 13 (4), 258-266. 94. X Guo*, G Cheng. An extrapolation approach for the solution of singular optima. Structural and Multidisciplinary Optimization 2000, 19 (4), 255-262. 95. G Cheng, X Guo. ɛ-relaxed approach in structural topology optimization. Structural Optimization 1997, 13 (4), 258-266.