第一/通讯作者论文：

Li, Y., Qi, S., Huang*, X., Du, J., Zheng, B. (2025) Thermally-Induced Microstructural Alteration Drives Auxetic Transition in Crystalline Rock: Effects on Microcracking and Acoustic Emission. Journal of Materials Research and Technology. 39, 4044-4062

Huang, X., Yin, C., Zhang, Y., Kang, W., Xu, L. (2025) DEM modeling of microstructural hardening and meso-flaw coupling driving crack propagation and acoustic emission in brittle rock. Computers and Geotechnics. 188.107548

Du, J., Huang*, X., Bao, H., Kang, W., Zhang, Y. (2025) Distinct element modelling of stress wave propagation in rock masses considering asymmetrical loading/unloading behavior of filled fracture: Unique compression-hardening and memory effect. Computers and Geotechnics. 186,107394

Zhan, Z., Wang, J., Du, J., Wang, B., Yang, Z., Huang*, X. (2025) Synergistic effects of crystal habit and confining pressure on the compressive mechanical behavior of crystalline rock: A grain-based modeling analysis. Scientific Reports, 15, 22445

Huang, X., Kang, W., Qi*, S., Du, J., Zhang, X. (2025). Comparative Analysis of microcracking behaviors and associated acoustic emission characteristics in sandstone subjected to compression-induced and direct tensile stresses, Computers and Geotechnics. 184, 107236

Huang, X., Zhang, X., Qi*, S. (2025). Comparative experimental investigation of direct tension and Brazilian splitting behaviors of thermally-damaged crystalline rocks: unique negative Poisson's ratio effect, Géotechnique. https://doi.org/10.1680/jgeot.24.01331

Xu, L., Zhang, Y., Huang*, X., Du, J. (2025). Loading/Unloading Response of Crystalline Rocks with Varied Thermal-Damaged Degrees to Cyclic Compression Using a Grain-Based Model, Rock Mechanics and Rock Engineering. 58, 575–601.

Xu, L., Sun, Y., Huang*, X., Liu, K. (2025). CFD-DEM Modeling of Loess Microstructure Alteration during Internal Hydraulic Erosion and Its Effect on Micro-to Macromechanical Behaviors, International Journal of Geomechanics. 25, 4

Huang, X., Kang, W., Wei, X., Xu, L. (2024). Nonlinear distinct element modeling of the microstructural compression-hardening effect on the progressive failure and associated acoustic emission of brittle rock, Computers and Geotechnics. 176, 106787.

Xu, L., Wang, B., Huang*, X., Du, J. (2024). Rate and negative Poisson’s ratio effects on Compressive Mechanical behaviors of Thermal-Damaged Crystalline Rocks using a grain-based model, Bulletin of Engineering Geology and the Environment. 83, 424.

Huang, X., Xu*, L., Xue, L., Wei, X. (2024) Compression-Hardening Memory of the Microstructure and its Effect on the Cyclic Loading/Unloading Response of Crystalline Rock Using a Grain-Based Model. Rock Mechanics Rock Engineering. 57, 6613–6632.

Huang, X., Xu*, L., Du, J., Ding, D. (2024) Propagation of the Longitude Stress Wave through a Filled Fracture Considering Cyclic Loading/Unloading Behaviours. Rock Mechanics Rock Engineering. 57, 4771-4786

Du, L., Huang*, X., Yang*, G., et al. (2023). UDEC Modelling on Dynamic Response of Rock Masses with Joint Stiffness Weakening Attributed to Particle Crushing of Granular Fillings, Rock Mechanics and Rock Engineering. 56, 1823–1841.

Huang, X., Xu*, L., Zhao, T., Lu, S., Sun, Z., Ding D. (2023) Characterization of the negative Poisson's ratio effect of the thermal-damaged crystalline rock by the grain-based model. International Journal of Rock Mechanics and Mining Sciences, 170,105553.

Zhang, X., Huang*, X., Qi, S., Zheng*, B., et al. (2023). Numerical Simulation on Shale Fragmentation by a PDC Cutter Based on the Discrete Element Method, Energies. 16(2), 965

Zhou, G., Xu, L., Huang*, X., et al. (2023). Synergistic effect of rainfall and pipe leakage erosion on the formation and development of loess caves in Weinan city, Loess Plateau, Northwest China, Environmental Earth Sciences. 82, 435.

Zhai, M., Xue*, L., Bu, F., Yang, B., Huang*, X., et al. (2022). Effects of Bedding Planes on Progressive Failure of Shales under Uniaxial Compression: Insights from Acoustic Emission Characteristics, Theoretical and Applied Fracture Mechanics. 119, 103343.

Bu, F., Xue*, L., Zhai, M., Huang*, X., et al. (2022). Evaluation of the characterization of acoustic emission of brittle rocks from the experiment to numerical simulation, Scientific Reports. 12, 498.

Huang*, X., Qi*, S., Guo, S., Zheng, B., Zhao, Q., Sha, P., Wang, T., Yao, X., Liang, N., Chang, J., Rong, X. (2022). Effect of the crystal habit on micromechanical extensile behaviors of the crystalline rock during compression. Engineering Geology, 310: 106874.

Huang*, X., Qi, S., Zheng, B., Liang, N., Li, L., Xue, L., Guo, S., Sun, X., Tai, D. (2021) An advanced grain-based model to characterize mechanical behaviors of crystalline rocks with different weathering degrees. Engineering Geology, 280, 105951.

Huang, X., Qi*, S., Zheng, B., et al. (2020). Progressive Failure Characteristics of Brittle Rock under High-Strain-Rate Compression Using the Bonded Particle Model, Materials. 13(18), 3943

Huang, X., Qi*, S., Zheng, B., et al. (2020). Stress Wave Propagation through Rock Joints Filled with Viscoelastic Medium Considering Different Water Contents, Applied Sciences. 10(14), 4797

Huang, X., Qi, S., Yao, W., and Xia*, K. (2019). Effect of filling humidity on the propagation of high-amplitude stress waves through an artificial joint. Geotechnical Testing Journal, 42(1): 30-42.

Huang, X., Qi*, S., Xia, K., and Shi, X. (2018). Particle crushing of a filled fracture during compression and its effect on stress wave propagation. Journal of Geophysical Research: Solid Earth, 123: 5559-5587.

Huang, X., Zhao, Q., Qi*, S., et al. (2020). Numerical Simulation on Seismic Response of the Filled Joint under High Amplitude Stress Waves Using Finite-Discrete Element Method (FDEM), Materials. 10(1), 13.

Huang, X., Qi, S., Xia, K., et al. (2016). Propagation of high amplitude stress waves through a filled artificial joint: An experimental study, Journal of Applied Geophysics. 130, 1-7

Huang, X., Qi*, S., Williams, A., Zou, Y., and Zheng B. (2015). Numerical simulation of stress wave propagating through filled joints by particle model. International Journal of Solids and Structures, 69(70): 23-33.

Huang, X., Qi*, S., Liu, Y., and Zhan, Z. (2015). Stress wave propagation through viscous-elastic jointed rock masses using propagator matrix method (PMM). Geophysical Journal International, 200(1): 452-470.

Huang, X., Qi*, S., Guo, S., and Dong, W. (2014). Experimental study of ultrasonic waves propagating through a rock mass with a single joint and multiple parallel joints. Rock Mechanics and Rock Engineering, 47: 549-559.