[1] Lu Wang, Guangyan Liu, Guanglun Wang, Kai Zhang. M‐PINN: A mesh‐based physics‐informed neural network for linear elastic problems in solid mechanics. International Journal for Numerical Methods in Engineering, 2024, e7444.
[2] Sihui Tong, Yanan Yi, Qinwei Ma, Guangyan Liu, Li Shi, Libin Sun, Shaopeng Ma. Dynamic fracture toughness measurement of graphite material considering inertial effect. International Journal of Impact Engineering, 2024, 186:104873.
[3] Lu Wang, Guangyan Liu, Yawen Deng, Wenzhang Sun, Qinwei Ma, Shaopeng Ma. Investigation on out-of-plane displacement measurements of thin films via a mechanical constraint-based 3D-DIC technique. Optics Communications, 2023, 530:129015.
[4] Lu Wang, Guangyan Liu, Libin Sun, Li Shi, Shaopeng Ma. A novel deep-learning-based objective function for inverse identification of material properties. Journal of Nuclear Materials, 2023, 584:154579.
[5] Yanan Yi, Tongzhen Xing, Guangyan Liu, Libin Sun, Li Shi, Shaopeng Ma. Effects of tensile and compressive stresses on damage evolution law of nuclear graphite. Journal of Nuclear Materials, 2023, 583:154513.
[6] Shigang Jia, Yanan Yi, Lu Wang, Guangyan Liu, Qinwei Ma, Libin Sun, Li Shi, Shaopeng Ma. Study on failure mechanism of line contact structures of nuclear graphite[J]. Nuclear Engineering and Technology. 2022, 54(8): 2989-2998.
[7] Lu Wang, Shigang Jia, Yanan Yi, Guangyan Liu, Shaopeng Ma. Effects of damage evolution on tensile strength measurement of nuclear graphite material by ring compression test. Journal of Nuclear Materials, 2021, 555(1): 153128.
[8] Xianzhi Gao, Guangyan Liu, Lu Wang, Yanan Yi, Guang Lin, Shaopeng Ma. Inverse characterisation of gradient distribution of the modulus of bamboo using a four-point bending test. Holzforschung, 2021, 75(7): 626-634.
[9] Yanan Yi, Guangyan Liu, Guang Lin, Libin Sun, Li Shi, Qinwei Ma, Shaopeng Ma, Evaluating the dynamic fracture toughness of graphite via accurate determination of the dynamic crack propagation length, Journal of Nuclear Materials, 2021, 543:152052.
[10] Yanan Yi, Guangyan Liu, Tongzhen Xing, Guang Lin, Libin Sun, Li Shi, Shaopeng Ma, Investigating the effects of confining pressure on graphite material failure modes and strength criteria, Nuclear Engineering and Technology, 2020, 52:1571-1578.
[11] Guangyan Liu, Lu Wang, Yanan Yi, Libin Sun, Li Shi, Shaopeng Ma,Inverse identification of graphite damage properties under complex stress states, Materials and Design, 2019, 183:108135.
[12] Guangyan Liu, Ruonan Zhang, Yanan Yi, Libin Sun, Li Shi, Han Jiang, Shaopeng Ma, Experimental and simulation study on stress concentration of graphite components in tension, Mechanics of Materials, 2019, 130:88-94.
[13] Guangyan Liu, Lu Wang, Yanan Yi, Libin Sun, Li Shi, Shaopeng Ma, Inverse identification of tensile and compressive damage properties of graphite material based on a single four-point bending test, Journal of Nuclear Materials, 2018, 509:445-453.
[14] Guangyan Liu, Wei Zhu, Guangyan Huang, The microbuckling failure of Dyneema® composites under compression, Acta Mechanica Solida Sinica, 2017, 30(4):425-434.
[15] Guangyan Liu, Hongchen Bao, Kaili Tang, Damage prediction in notched fiber-reinforced composite laminates. Composite Interfaces, 2017, 24(3):279-290.
[16] Hongchen Bao, Guangyan Liu, Progressive failure analysis on scaled open-hole tensile composite laminates. Composite Structures, 2016, 150:173-180.
[17] Kaili Tang, Hongchen Bao, Guangyan Liu, Simulation on size effect of notched quasi-isotropic composite laminates under tensile loading. Journal of Reinforced Plastics and Composites, 2016, 35(22):1623-1633.
[18] Guangyan Liu, Kaili Tang, Study on stress concentration in notched cross-ply laminates under tensile loading. Journal of Composite Materials, 2016, 50(3):283-296.
[19] Guangyan Liu, Modelling microbuckling failure of a composite cantilever beam made from ultra high molecular-weight polyethylene fibres. Acta Mechanica, 2015, 226(4):1255-1266.
[20] Guangyan Liu, Michael D. Thouless, Vikram S. Deshpande, Norman A. Fleck, Collapse of a composite beam made from ultra high molecular-weight polyethylene fibres. Journal of the Mechanics and Physics of Solids, 2014, 63:320-335.
[21] 曹倩妮,刘广彦,黄广炎, 组合载荷下含缺口纤维增强树脂基复合材料的失效分析,复合材料学报, 2018, 35(10):2723-2729.
[22] 鲍宏琛, 刘广彦, 纤维增强复合材料层合板缺口尺寸及形状效应数值模拟, 复合材料学报, 2017, 34(5):987-995.
[23] 鲍宏琛, 刘广彦, 准各向同性纤维增强复合材料层合板的开孔拉伸破坏模拟, 复合材料学报, 2016, 33(5):1026-1032.
[24] 专著:刘广彦, 易亚楠, 马沁巍, 马少鹏. 核石墨力学性能测试与分析. 北京: 清华大学出版社, 2023.
