代表性论著目录 (*代表为通讯作者或通讯作者之一)

1. Zhu Y. C., Luo J., Guo X.*, Xiang Y., J. C. Stephen. Role of grain boundaries under long-time radiation. Physical Review Letters 2018, 120(22): 222501.

2. Du Z. L., Cui T. C., Liu C, Zhang W. S., Guo Y. L., Guo X.*, An efficient and easy-to-extend Matlab code of the Moving Morphable Component (MMC) method for three-dimensional topology optimization. Structural and Multidisciplinary Optimization, 2022, 65(5): 158.

3. Xue D. C., Zhu Y. C.*, Li S. S., Liu C., Zhang W. S., Guo X.* On speeding up an asymptotic-analysis-based homogenisation scheme for designing gradient porous structured materials using a zoning strategy. Structural and Multidisciplinary Optimization 2020, 62(2): 457-473.

4. Liu C., Zhu Y. C., Sun Z., Li D. D., Du Z. L.*, Zhang W. S., Guo X.* An efficient moving morphable component (MMC)-based approach for multi-resolution topology optimization. Structural and Multidisciplinary Optimization 2018, 58(6): 2455-2479.

5. Zhang W. S., Zhou J. H., Zhu Y. C., Guo X.* Structural complexity control in topology optimization via moving morphable component (MMC) approach. Structural and Multidisciplinary Optimization 2017, 56(3): 535-552.

6. Zhang W. S., Yuan J., Zhang J., Guo X.* 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.

7. Du Z. L., Guo X.* Symmetry analysis for structural optimization problems involving reliability measure and bi-modulus materials. Structural and Multidisciplinary Optimization 2016, 53(5): 973-984.

8. Ni C. H., Yan J.*, Cheng G. D., Guo X. Integrated size and topology optimization of skeletal structures with exact frequency constraints. Structural and Multidisciplinary Optimization 2014, 50(1): 113-128.

9. Guo X.*, Du Z. L., Cheng G. D. A confirmation of a conjecture on the existence of symmetric optimal solution under multiple loads. Structural and Multidisciplinary Optimization 2014, 50(4): 659-661.

10. Guo X.*, Du Z. L., Cheng G. D., Ni C. H. Symmetry properties in structural optimization: some extensions. Structural and Multidisciplinary Optimization 2013, 47(6): 783-794.

11. Guo X.*, Ni C. H., Cheng G. D., Du Z. L. Some symmetry results for optimal solutions in structural optimization. Structural and Multidisciplinary Optimization 2012, 46(5): 631-645.

12. Guo X., Cheng G. D.*, Olhoff N. Optimum design of truss topology under buckling constraints. Structural and Multidisciplinary Optimization 2005, 30 (3): 169-180.

13. Guo X.*, Cheng G. D., Yamazaki K. A note on stress-constrained truss topology optimization. Structural and Multidisciplinary Optimization 2004, 27 (1): 136-137.

14. Guo X.*, Cheng G. D.*, Yamazaki K.* 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.

15. Guo X.*, Yamazaki K.*, Cheng G. D.* A new two-point approximation approach for structural optimization. Structural and Multidisciplinary Optimization 2000, 20 (1): 22-28.

16. Guo X.*, Cheng G. D.* An extrapolation approach for the solution of singular  optima. Structural and Multidisciplinary  Optimization 2000, 19 (4): 255-262.

17. Cheng G. D.*, Guo X. ε-relaxed approach in structural topology optimization. Structural and Multidisciplinary Optimization 1997, 13(4): 258-266.

18. Jiang X. D., Huo W. D., Liu C.*, Du Z. L., Zhang X. Y., Li X., Guo X.* Explicit layout optimization of complex rib-reinforced thin-walled structures via computational conformal mapping (CCM). Computer Methods in Applied Mechanics and Engineering, 2023, 404: 115745.

19. Jiang X. D., Liu C.*, Du Z. L., Huo W. D., Zhang X. Y., Liu F., Guo X.* A unified framework for explicit layout/topology optimization of thin-walled structures based on Moving Morphable Components (MMC) method and adaptive ground structure approach. Computer Methods in Applied Mechanics and Engineering 2022, 396: 115047.

20. Ma C., Xue D. C., Li S. S., Zhou Z. C., Zhu Y. C.*, Guo X.* Compliance minimisation of smoothly varying multiscale structures using asymptotic analysis and machine learning. Computer Methods in Applied Mechanics and Engineering 2022, 395: 114861.

21. Zhang W. S., Yan X. Y., Meng Y., Zhang C. L., Youn S. K.*, Guo X.* Flexoelectric nanostructure design using explicit topology optimization. Computer Methods in Applied Mechanics and Engineering 2022, 394: 114943.

22. Liu D. P., Yang H., Elkhodary E. I., Tang S.*, Liu W. K.*, Guo X.* Mechanistically informed data-driven modeling of cyclic plasticity via artificial neural networks. Computer Methods in Applied Mechanics and Engineering 2022, 393: 114766.

23. Li S. S., Zhu Y. C.*, Guo X.* Optimisation of spatially varying orthotropic porous structures based on conformal mapping. Computer Methods in Applied Mechanics and Engineering 2022, 391: 114589.

24. Zhang G., Guo T. F., Elkhodary E. I., Tang S.*, Guo X.* Mixed Graph-FEM phase field modeling of fracture in plates and shells with nonlinearly elastic solids. Computer Methods in Applied Mechanics and Engineering 2022, 389: 114282.

25. Tang S., Yang H., Qiu H., Fleming M., Liu W. K.*, Guo X.* MAP123-EPF: A mechanistic-based data-driven approach for numerical elastoplastic modeling at finite strain. Computer Methods in Applied Mechanics and Engineering 2021, 373: 113484.

26. Tang S., Li Y., Qiu H., Yang H., Saha S., Mojumder S., Liu W. K.*, Guo X.* MAP123-EP: A mechanistic-based data-driven approach for numerical elastoplastic analysis. Computer Methods in Applied Mechanics and Engineering 2021, 364: 112955.

27. Liu C., Du Z. L.*, Zhu Y. C., Zhang W. S., Zhang X. Y., Guo X.* Optimal design of shell-graded-infill structures by a hybrid MMC-MMV approach. Computer Methods in Applied Mechanics and Engineering 2020, 369: 113187.

28. Xue D. C., Zhu Y. C.*, Guo X.* Generation of smoothly-varying infill configurations from a continuous menu of cell patterns and the asymptotic analysis of its mechanical behaviour. Computer Methods in Applied Mechanics and Engineering 2020, 366: 113037.

29. Zhang W. S., Jiang S., Liu C., Li D. D., Kang P., Youn S. K.*, Guo X.* 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.

30. Zhang W. S., Li D. D., Kang P., Guo X.*, Youn S. K.* Explicit topology optimization using IGA-based moving morphable void (MMV) approach. Computer Methods in Applied Mechanics and Engineering 2020, 360: 112685.

31. Zhang G., Guo T. F., Guo X.*, Tang S.*, Fleming M., Liu W. K. Fracture in tension–compression-asymmetry solids via phase field modeling. Computer Methods in Applied Mechanics and Engineering 2019, 357: 112573.

32. Tang S., Zhang G., Yang H., Li Y.*, Liu W. K.*, Guo X.* 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.

33. Tang S., Zhang G., Guo T. F., Guo X.*, Liu W. K.* Phase field modeling of fracture in nonlinearly elastic solids via energy decomposition. Computer Methods in Applied Mechanics and Engineering 2019, 347: 477-494.

34. Xue R. Y., Liu C., Zhang W. S., Zhu Y. C., Tang S., Du Z. L.*, Guo X.* Explicit structural topology optimization under finite deformation via moving morphable void (MMV) approach. Computer Methods in Applied Mechanics and Engineering 2019, 344: 798-818.

35. Zhang W. S., Li D., Zhou J. H., Du Z. L., Li B. J., Guo X.* 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.

36. Zhang W. S., Liu Y., Wei P., Zhu Y. C., Guo X.* Explicit control of structural complexity in topology optimization. Computer Methods in Applied Mechanics and Engineering 2017, 324: 149-169.

37. Guo X.*, Zhou J. H., Zhang W. S., Du Z. L., Liu C., Liu Y. Self-supporting structure design in additive manufacturing through explicit topology optimization. Computer Methods in Applied Mechanics and Engineering 2017, 323: 27-63.

38. Zhang W. S., Chen J. S., Zhu X. F., Zhou J. H., Xue D. C., Lei X., Guo X.* Explicit three dimensional topology optimization via Moving Morphable Void (MMV) approach. Computer Methods in Applied Mechanics and Engineering 2017, 322: 590-614.

39. Zhang W. S., Li D., Zhang J., Guo X.* 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.

40. Guo X.*, Zhang W. S., Zhang J., Yuan J. Explicit structural topology optimization based on moving morphable components (MMC) with curved skeletons. Computer Methods in Applied Mechanics and Engineering 2016, 310: 711-748.

41. Zhang W. S., Zhong W. L., Guo X.* Explicit layout control in optimal design of structural systems with multiple embedding components. Computer Methods in Applied Mechanics and Engineering 2015, 290: 290-313.

42. Guo X.*, Zhao X. F., Zhang W. S., Yan J., Sun G. M. Multi-scale robust design and optimization considering load uncertainties. Computer Methods in Applied Mechanics and Engineering 2015, 283: 994-1009.

43. Guo X.*, Zhang W. S., Zhong W. L. Explicit feature control in structural topology optimization via level set method. Computer Methods in Applied Mechanics and Engineering 2014, 272: 354-378.

44. Guo X.*, Zhang W. S., Zhong W. L. Stress-related topology optimization of continuum structures involving multi-phase materials. Computer Methods in Applied Mechanics and Engineering 2014, 268: 632-655.

45. Wang X. Y., Guo X.*, Su Z. 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.

46. Zhang W. S., Zhong W. L., Guo X.* An explicit length scale control approach in SIMP-based topology optimization. Computer Methods in Applied Mechanics and Engineering 2014, 282: 71-86.

47. Guo X.*, Zhang W. S., Zhang L. Robust structural topology optimization considering boundary uncertainties. Computer Methods in Applied Mechanics and Engineering 2013, 253: 356-368.

48. Guo X.*, Zhang W. S., Wang M. Y., Wei P. Stress-related topology optimization via level set approach. Computer Methods in Applied Mechanics and Engineering 2011, 200(47-48): 3439-3452.

49. Guo X.*, Bai W., Zhang W. S., Gao X. X. Confidence structural robust design and optimization under stiffness and load uncertainties. Computer Methods in Applied Mechanics and Engineering 2009, 198(41-44): 3378-3399.

50. Zhou Z. C., Zhu Y. C.*, Guo X.*, Machine learning based asymptotic homogenization and localization: Predictions of key local behaviors of multiscale configurations bearing microstructural varieties. International Journal for Numerical Methods in Engineering, 2023, 124(3): 639-669.

51. Li J. L., Zhang Y. W.*, Du Z. L., Liu C., Zhang W. S., Guo X. L., Guo X.* A moving morphable component‐based topology optimization approach considering transient structural dynamic responses. International Journal for Numerical Methods in Engineering 2022, 123(3): 705-728.

52. Zhang W. S., Jiang Q. Q., Feng W. Z., Youn S. K.*, Guo X.* Explicit structural topology optimization using boundary element method‐based moving morphable void approach. International Journal for Numerical Methods in Engineering 2021, 122(21): 6155-6179.

53. Zhang W. S., Xiao Z., Liu C., Mei Y., Youn S. K., Guo X.* A scaled boundary finite element based explicit topology optimization approach for three‐dimensional structures. International Journal for Numerical Methods in Engineering 2020, 121(21): 4878-4900.

54. Du J. M., Du Z. L.*, Wei Y. H., Zhang W. S., Guo X.* 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.

55. Zhang W. S., Song J. F., Zhou J. H., Du Z. L., Zhu Y. C., Sun Z., Guo X.* Topology optimization with multiple materials via moving morphable component (MMC) method. International Journal for Numerical Methods in Engineering 2018, 113(11): 1653-1675.

56. Zhang W. S., Guo X.*, Wang M. Y., Wei P. 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.

57. Guo X.*, Du J. M., Gao X. X. 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.

58. Kanno Y.*, Guo X. A mixed integer programming for robust truss topology optimization with stress constraints. International Journal for Numerical Methods in Engineering 2010, 83(13): 1675-1699.

59. Guo X.*, Bai W., Zhang W. S. Extreme structural response analysis of truss structures under material uncertainty via linear mixed 0-1 prograrnming. International Journal for Numerical Methods in Engineering 2008, 76(3): 253-277.

60. Guo X.*, Yamazaki K., Cheng G. D. A new three-point approximation approach for design optimization problems. International Journal for Numerical Methods in Engineering 2001, 50(4): 869-884.

61. Jin F.*, Tang Q. Q., Guo X., Gao H. J. A generalized Maugis-Dugdale solution for adhesion of power-law graded elastic materials. Journal of the Mechanics and Physics of Solids 2021, 154: 104509.

62. Du Z. L., Zhang G., Guo T. F., Tang S.*, Guo X.* Tension-compression asymmetry at finite strains: A theoretical model and exact solutions. Journal of the Mechanics and Physics of Solids 2020, 143: 104084.

63. Guo X.*, Ma B. B., Zhu Y. C.* A magnification-based multi-asperity (MBMA) model of rough contact without adhesion. Journal of the Mechanics and Physics of Solids 2019, 133: 103724.

64. Zhu Y. C., Li S. S., Du Z. L., Liu C., Guo X.*, Zhang W.S.* 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.

65. Zhu Y. C., Wei Y. H., Guo X.* 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.

66. Zhu Y. C., Wang J.*, Xiang Y.*, Guo X.* 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.

67. Du Z. L., Guo X.* Variational principles and the related bounding theorems for bi-modulus materials. Journal of the Mechanics and Physics of Solids 2014, 73: 183-211.

68. Yang H., Fan F. F., Liang W. T., Guo X., Zhu T., Zhang S. L.* A chemo-mechanical model of lithiation in silicon. Journal of the Mechanics and Physics of Solids 2014, 70: 349-361.

69. Jin F., Guo X.*, Gao H. J. 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.

70. Guo X.*, Zhang T. 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.

71. Zhang H. W.*, Wang J. B., Guo X.* Predicting the elastic properties of single-walled carbon nanotubes. Journal of the Mechanics and Physics of Solids 2005, 53(9): 1929-1950.

72. Xiang Q., Yang H., K. I. Elkhodary, Qiu H., Tang S.*, Guo X.* A multiscale, data-driven approach to identifying thermo-mechanically coupled laws—bottom-up with artificial neural networks. Computational Mechanics 2022, 70(1): 163-179.

73. Qiu H., Yang H., K. I. Elkhodary, Tang S., Guo X.*, Huang J. H. A data-driven approach for modeling tension–compression asymmetric material behavior: numerical simulation and experiment. Computational Mechanics 2022, 69: 299-313.

74. Mei Y., Deng J. W., Guo X., S. Goenezen, S. Avril.* Introducing regularization into the virtual fields method (VFM) to identify nonhomogeneous elastic property distributions. Computational Mechanics 2021, 67: 1581-1599.

75. Liu C., Du Z. L.*, Zhang W. S., Zhang X. Y., Mei Y., Guo X.* Design of optimized architected structures with exact size and connectivity via an enhanced multidomain topology optimization strategy. Computational Mechanics 2021, 67: 743-762.

76. Yang H., Guo X.*, Tang S.*, Liu W. K. Derivation of heterogeneous material laws via data-driven principal component expansions. Computational Mechanics 2019, 64: 365-379.

77. Li H. Y., Orion L. K., Gao J. Y., Yu C., Nie Y. H., Zhang L., Mahsa T., Tang S., Guo X., Li G., Tang S. Q., Cheng G. D., Liu W.K.* Clustering discretization methods for generation of material performance databases in machine learning and design optimization. Computational Mechanics 2019, 64: 281-305.

78. Du Z. L., Zhang W. S., Zhang Y. P., Xue R. Y., Guo X.* Structural topology optimization involving bi-modulus materials with asymmetric properties in tension and compression. Computational Mechanics 2019, 63: 335-363.

79. Zhang W. S., Li D., Yuan J., Song J. F., Guo X.* A new three-dimensional topology optimization method based on moving morphable components (MMCs). Computational Mechanics 2017, 59: 647–665.

80. Yan J., Guo X.*, Cheng G. D. Multi-scale concurrent material and structural design under mechanical and thermal loads. Computational Mechanics 2016, 57: 437–446.

81. Du Z. L., Jia Y. B., Chung H.*, Zhang Y. P., Li Y., Zhou H., Guo X.* Analysis and optimization of thermoelastic structures with tension–compression asymmetry. International Journal of Solids and Structures, 2022, 254: 111897.

82. Zhou Z. C., Zhu Y. C.*, Luo J., Yang X., Guo X.* Characterisation of dislocation patterning behaviour with a continuum dislocation dynamics model on two parallel slip planes equipped with a deep neural network resolving local microstructures. International Journal of Solids and Structures 2020, 198: 57-71.

83. Jin F., Wan Q., Guo X.* A double-Westergaard model for adhesive contact of a wavy surface. International Journal of Solids and Structures 2016, 102: 66-76.

84. Du Z. L., Zhang Y. P., Zhang W. S., Guo X.* A new computational framework for mechanical with different mechanical responses in tension and compression and its applications. International Journal of Solids and Structures 2016, 100: 54-73.

85. Jin F., Zhang W., Wan Q., Guo X.* 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.

86. Jin F., Zhang W., Zhang S. L., Guo X.* Adhesion between elastic cylinders based on the double-Hertz model. International Journal of Solids and Structures 2014, 51(14): 2706-2712.

87. Jin F., Guo X.* 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.

88. Jin F., Guo X.* 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.

89. Guo X.*, Jin F., Gao H. J. 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.

90. Jin F., Guo X.* 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.

91. Guo X.*, Jin F. 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.

92. Guo X.*, Wang J. B., Zhang H. W. 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.

93. Zhang H. W.*, Zhang S., Guo X., Bi J. Y. Multiple spatial and temporal scales method for numerical simulation of non-classical heat conduction problems: one dimensional case. International Journal of Solids and Structures 2005, 42(3-4): 877-899.

94. Huo W. D., Liu C.*, Du Z. L., Liu Z. Y., Guo X.* Topology optimization on complex surfaces based on the moving morphable components (MMCs) method and computational conformal mapping (CCM). Journal of Applied Mechanics-Transactions of the ASME 2022, 89(5): 051008.

95. Jin F.*, Tang C. Y., Guo X., Bai L. T. Roof deformation and collapse of stamps with isolated grooves: a contact mechanics approach. Journal of Applied Mechanics-Transactions of the ASME 2022, 89(3): 031007.

96. Guo X.*, Du Z. L., Liu C., Tang S. A new uncertainty analysis-based framework for data-driven computational mechanics. Journal of Applied Mechanics-Transactions of the ASME 2021, 88(11): 111003.

97. Mei Y., Du Z. L., Zhao D. M., Zhang W. S., Liu C.*, Guo X.* Moving morphable inclusion approach: an explicit framework to solve inverse problem in elasticity. Journal of Applied Mechanics-Transactions of the ASME 2021, 88(4): 041001.

98. Yang H., Qiu H., Xiang Q., Tang S.*, Guo X.* Exploring elastoplastic constitutive law of microstructured materials through artificial neural network—A mechanistic-based data-driven approach. Journal of Applied Mechanics-Transactions of the ASME 2020, 87(9): 091005.

99. Lei X., Liu C.*, Du Z. L., Zhang W. S., Guo X.* Machine learning-driven real-time topology optimization under moving morphable component-based framework. Journal of Applied Mechanics-Transactions of the ASME 2019, 86(1): 011004.

100. Jin F.*, Guo X., Wan Q. Plane contact and adhesion of two elastic solids with an interface groove. Journal of Applied Mechanics-Transactions of the ASME 2018, 85(4): 041002.

101. Liu C., Du Z. L., Zhang W. S., Zhu Y. C., Guo X.* Additive manufacturing-oriented design of graded lattice structures through explicit topology optimization. Journal of Applied Mechanics-Transactions of the ASME 2017, 84(8): 081008.

102. Zhang W. S., Yang W. Y., Zhou J. H., Li D., Guo X.* Structural topology optimization through explicit boundary evolution. Journal of Applied Mechanics-Transactions of the ASME 2017, 84(1): 011011.

103. Jin F.*, Guo X., Wan Q. Revisiting the maugis-dugdale adhesion model of elastic periodic wavy surfaces. Journal of Applied Mechanics-Transactions of the ASME 2016, 83(10): 101007.

104. Zhang W. S., Zhang J., Guo X.* Lagrangian description based topology optimization-a revival of shape optimization. Journal of Applied Mechanics-Transactions of the ASME 2016, 83(4): 041010.

105. Jin F., Wan Q., Guo X.* Plane contact and partial slip behaviors of elastic layers with randomly rough surfaces. Journal of Applied Mechanics-Transactions of the ASME 2015, 82(9): 091006.

106. Guo X.*, Zhang W. S., Zhong W. L. Doing Topology optimization explicitly and geometrically-a new moving morphable components based framework. Journal of Applied Mechanics-Transactions of the ASME 2014, 81(8): 081009.

107. Zhang W., Jin F., Zhang S. L., Guo X.* Adhesive contact on randomly rough surfaces based on the double-Hertz model. Journal of Applied Mechanics-Transactions of the ASME 2014, 81(5): 051008.

108. Jin F., Guo X.*, Zhang W. A unified treatment of axisymmetric adhesive contact on a power-law graded elastic half-space. Journal of Applied Mechanics-Transactions of the ASME 2013, 80(6): 061024.

109. Liu D. P., Yang H., Elkhodary K. I., Tang S., Guo X.* Cyclic softening in nonlocal shells—A data-driven graph-gradient plasticity approach. Extreme Mechanics Letters, 2023, 60: 101995.

110. Dong Z. C., Guo X.*, Zhu Y. C.* Origami discovery by means of digital resources. Extreme Mechanics Letters, 2022, 57: 101916.

111. Huang M. C., Du Z. L.*, Liu C.*, Zheng Y. G., Cui T. C., Mei Y., Li X., Zhang X. Y., Guo X.* Problem-independent machine learning (PIML)-based topology optimization—A universal approach. Extreme Mechanics Letters, 2022, 56: 101887.

112. Chen J., Yang H., Elkhodary K. I., Tang S., Guo X.* G-MAP123: A mechanistic-based data-driven approach for 3D nonlinear elastic modeling—Via both uniaxial and equibiaxial tension experimental data. Extreme Mechanics Letters, 2022, 50: 101545.

113. Luo J. C., Du Z. L.*, Liu C.*, Mei Y., Zhang W. S., Guo X. Moving Morphable Components-based inverse design formulation for quantum valley/spin hall insulators. Extreme Mechanics Letters, 2021, 45: 101276.

114. Gao B., Li Y., Guo T. F., Guo X.*, Tang S.* Void nucleation in alloys with lamella particles under biaxial loadings. Extreme Mechanics Letters, 2018, 22: 42-50.

115. Qiu H., Li Y., Guo T. F., Guo X.*, Tang S.* Deformation and pattern transformation of porous soft solids under biaxial loading: Experiments and simulations. Extreme Mechanics Letters, 2018, 20: 81-90.

116. Xue R. Y., Li R., Du Z. L.*, Zhang W. S., Zhu Y. C., Sun Z., Guo X.* Kirigami pattern design of mechanically driven formation of complex 3D structures through topology optimization. Extreme Mechanics Letters, 2017, 15: 139-144.

117. Yang H., Liang W. T., Guo X., Wang C., Zhang S. L.*, Strong kinetics-stress coupling in lithiation of Si and Ge anodes. Extreme Mechanics Letters, 2015, 2: 1-6.

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