1.国家自然科学基金优秀青年基金项目（海外）：深地工程力学（2025.1-2027.12，主持）

2.国家自然科学基金青年基金项目(No.12302099)：基于GKS求解体系的粘弹性FGMs三维断裂力学问题研究(2024.1-2026.12,主持)

3.香港政府研究资助局项目Research Grants Council of Hong Kong SAR Government (GRF No. 17204415): Effect of micro-fluid inclusions on abnormally delayed mechanical behavior of intact rocks after excavation (2019-2024,参与)

4.香港政府研究资助局项目Research Grants Council of Hong Kong SAR Government (GRF No. 17207518): Learning more lessons from a catastrophic man-made slope failure disaster in Shenzhen (2018-2021,参与)

5.香港政府研究资助局项目Research Grants Council of Hong Kong SAR Government (RGC Research Impact Fund R5037-18)：Study of Super-fast Large-area Economical Marine Reclamations for Housing and Infrastructural Developments in the Guangdong-Hong Kong-Macau Greater Bay Area (2016-2018,参与)

6.国际合作项目Thirty Meters Telescope (TMT) WFOS-MOBIE Mini-study：Anti-seismic Numerical Simulation of Subcomponents of Large Radio Telescope MOBIE of Hawaii, US (2014-2015,主要完成人)

代表性成果：

[1].Chen, XW. Yue, ZQ. A unified mathematical treatment of interfacial edge dislocations in three-dimensional functionally graded materials[J]. Journal of the Mechanics and Physics of Solids, 2021: 104471.

[2].Chen, XW. Fu, KK. Li Y. A theoretical modelling of strengthening mechanism in graphene-metal nanolayered composites [J]. International Journal of Engineering Science, 2023.

[3].Chen, XW. He Chao. Li Bo. Shi Zhenming. Pan Ernian. Yue Zhongqi. Why graphene in dispersed form has low strengthening efficiency in nanocomposites? A new micromechanics perspective [J]. International Journal of Solids and Structures, 2025.

[4].Chen, XW. Yue, ZQ. Wang, SL. Complete solution for a penny shaped crack near and parrallel to an arbitrarily graded interface[J]. International Journal of Solids and Structures, 2022, 254: 111849.

[5].Chen, XW. Yue, ZQ. Nonlinear contact force law for spherical indentation of FGM coated elastic substrate: An extension of Hertz's solution[J]. International Journal of Solids and Structures, 2020, 191: 550-565.

[6].Chen, XW. Yue, ZQ. Incomplete contact between a coated elastic substrate and rigid foundation perturbed by a rigid disc[J]. International Journal of Solids and Structures, 2020, 202: 605-619.

[7].Chen, XW. Wang, SL. Yue, ZQ. Mechanics of multilayered or functionally graded material pressed onto an imperfect rigid base with a circular opening by localized surface loading. International Journal of Solids and Structures 2022.

[8].Chen, XW. Yue ZQ. Interaction of two coaxial penny-shaped cracks near an arbitrarily graded interface in FGMs: Exact and approximate solutions[J]. Journal of Applied Mechanics, Transcation of The ASME, 2022: 1-38.

[9].Chen, XW, Yue Z Q, Yue W V. On an annular crack near an arbitrarily graded interface in FGMs[J]. Applied Mathematical Modelling, 2023.

[10].Chen, XW. Yue, ZQ. Mode-I pressurized axisymmetric penny-shaped crack in graded interfacial zone with variable modulus and Poisson’s ratio[J]. Engineering Fracture Mechanics, 2020, 235: 107164.

[11].Chen, XW. Wang, SL. Yue, ZQ. Yue, WV. Shielding effect of ring dislocation dipole on penny-shaped crack. Engineering Fracture Mechanics, 2023, 290, 109519.

[12].Chen, XW. Wang, SL. Yue, ZQ. Yue, WV. An extended fracture mechanics-based model to simulate underground injection into multilayered rock strata. Engineering Fracture Mechanics, 2024.

[13].Chen, XW. He C, Cao J, et al. Boussinesq indentation of a cracked half space: a theoretical modelling of impact induced compressive fracture[J]. Engineering Fracture Mechanics, 2025, 325: 111301.

[14].Chen, XW. Chen WB, Yue ZQ. Consolidation of multilayered soil with fractional derivative viscoelasticity due to surface loading and internal pumping[J]. Transportation Geotechnics, 2023, 42: 101083.

[15].Chen, XW.Chen WB, Yue ZQ. One-dimensional consolidation of multilayered soil with continuous drainage boundaries and under time-dependent loading[J]. International Journal of Geomechanics, 2022, 22(9): 04022142.

[16].Chen, XW. Yue, ZQ. Contact mechanics of two elastic spheres reinforced by functionally graded materials (FGM) thin coatings[J]. Engineering Analysis with Boundary Elements, 2019, 109: 57-69.

[17].Chen, XW. Wang SL, Yue ZQ. Gurtin and Murdoch's surface effect on the elastic behavior of an elastic half space subjected to body forces[J]. Engineering Analysis with Boundary Elements, 2022, 138: 118-132.

[18].Chen, XW. Yue, ZQ. Response of bimaterials with interfacial tension subjected to axisymmetric body force[J]. Mathematics and Mechanics of Solids, 2019, 24(7): 2231-2250.

[19].Chen, XW. Yue WV. Residual Stress Concentration Due to Nano-Scaled Particulate Contamination at Direct Bonding Interface with Localized Material Inhomogeneity[J]. Journal of Elasticity, 2024: 1-24.

[20].Song Zhenyu, Li Bo,Chen Xingwei*, Kong Deheng. Time-dependent Deformation of Fracture Asperities with Different Height-to-Radius Ratios subject to Normal Loading[J]. Rock Mechanics and Rock Engineering, 2025.

1. 高等计算力学 （研究生）

2. 岩体力学II （研究生）

1. 2022上海领军(海外)青年人才

2. 2022香港工程师学会最佳博士论文奖“Ringo Yu Prize for best PhD thesis in geotechnical engineering”

3. 2016上海交通大学优秀毕业生

1.中国岩石力学与工程学会岩体物理数学模拟专业委员会委员

2.《力学季刊》编委

博士：

李一涛， 2025级， 毕业学校：重庆大学

硕士：

张宇杰， 2024级， 毕业学校：浙江大学

研究兴趣主要集中在固体力学与应用数学理论在地球科学和工程地质中的交叉应用。研究工作面向深地资源开发、地下工程建设和地质灾害防控中的关键力学问题，通过从复杂地质现象中提炼本质物理机制，建立可解析、可计算、可预测的理论模型，揭示岩体介质变形、破裂与失稳过程背后的力学规律，并服务于工程安全评价、灾害预测和智能决策。目前重点关注以下方向：

1.深地人类活动诱发断层失稳

围绕深部资源开采、流体注入、地热开发、地下储能等工程活动引发的断层滑移与失稳问题，研究复杂应力场、孔隙流体压力和断层摩擦强度演化之间的耦合机制。通过建立断层力学模型、失稳判据和多场耦合理论，探索诱发地震、断层活化和深地工程灾害的发生机理，为深地工程安全开发提供理论支撑。

2.水力压裂与多场耦合断裂力学

面向非常规油气开发、地热能开采和地下岩体改造中的水力压裂问题，研究流体驱动裂纹的起裂、扩展、分叉及多裂纹相互作用机制。重点关注岩体非均质性、天然裂隙、地应力状态和流固耦合作用对裂纹扩展路径和压裂效果的影响，发展具有物理可解释性的理论模型和预测方法。

3. AI驱动的地质力学建模与智能预测

将固体力学理论模型与人工智能方法相结合，探索“力学机理+数据驱动”的地质工程智能分析框架。通过机器学习、物理信息神经网络、智能反演和多源监测数据融合，实现对断层失稳、水力压裂、岩体破裂和地质灾害演化过程的快速识别、参数反演和趋势预测，推动传统地质力学研究向智能化、可预测和可决策方向发展。

海归青年人才初创课题组，导师思维活跃、为人友善、经费充足。硕士、博士每年招收计划如下：

硕士研究生2~3名，

博士研究生1~2名，

长期开放博士后申请。

欢迎对上述研究感兴趣的同学加入课题组共同成长，想要进一步了解的同学，欢迎随时与我邮件联系！