五、主要学术成果: l 10篇代表性论文 [1] Zhao, Z., & Zhou, X. P. (2024). Digital Microscopic Multiphase Heterogeneity Representation and Its Effects on Micromechanics and Cracking Behaviors of Geomaterials. Rock Mechanics and Rock Engineering, 1-17. [2] Zhao, Z., Shou, Y. D., & Zhou, X. P. (2024). A novel digital extraction approach of pore network models from carbonates inspired by quantum genetic optimization techniques. Acta Geotechnica, 1-16. [3] Zhao, Z., & Lu, H. F. (2023). Deep learning interprets failure process of coal reservoir during CO2-desorption by 3D reconstruction techniques. Energy, 282, 128802. [4] Zhao, Z., & Zhou, X. P. (2023). A novel voxel-particle energy approach to predict 3D microscopic fracture surface of porous geomaterials and fracture permeability modeling. Engineering Geology, 323, 107214. [5] Zhao, Z., & Zhou, X. P. (2022). Pore-scale diffusivity and permeability evaluations in porous geomaterials using multi-types pore-structure analysis and X-μCT imaging. Journal of Hydrology, 615, 128704. [6] Zhao, Z., & Zhou, X. P. (2022). Spatial propagation effects of 3D cracks on mechanical properties of geomaterials under uniaxial compression by 3D reconstruction. Rock Mechanics and Rock Engineering, 55(11), 6761-6778 [7] Zhao, Z., & Zhou, X. P. (2022). Digital analysis for pore-scale compressive strength and permeability of foamed cement with realistic microstructures by X-ray-μCT imaging. Construction and Building Materials, 346(5): 128456. [8] Zhao, Z., Zhou, X., & Qian, Q. (2021). DQNN: Pore-scale variables-based digital permeability assessment of carbonates using quantum mechanism-based machine-learning. Science China Technological Sciences, 1-12. [9] Zhao, Z., & Zhou, X. P. (2021). Microscopic Characterizations of Heterogeneous Pores, ITZs, Multiple‐Solids, and Their Impacts on Damage Property of Sandstone by Low‐High Resolution 3D Reconstruction. Geophysical Research Letters, 48(19), e2021GL095001. [10] Zhao, Z., & Zhou, X. P. (2021). DRPCTS: A digital computation theory framework system for rock property parameters using micro‐CT images. International Journal for Numerical and Analytical Methods in Geomechanics, 45(13), 1934-1948. l 代表性专利 [1] 赵智,陈俊伟,周小平,基于数字图像与机器学习的3D岩石储层建模方法 [发明]. [2] 赵智,陈俊伟,周小平,一种岩石实时微观损伤的X-射线CT加载-检测装置及试验方法 [发明]. [3] 赵智,陈俊伟,周小平,基于XCT层析成像的岩石宏-微观裂纹检测系统及方法 [发明]. [4] 周小平,赵智,周健南,寿云东,孔新立,王鹏,耿汉生,一种基于结构体矩阵的砂岩三维真实模型重构方法[发明]. [5] 周小平,赵智,周健南,寿云东,孔新立,王鹏,耿汉生,基于色差识别的岩石微观结构射线成像探测法[发明]. [6] 周小平,赵智,周健南,寿云东,孔新立,王鹏,耿汉生,基于像素单元能级划分的砂岩裂纹路径预测[发明]. [7] 陈俊伟,陈萍,赵智,周小平,陈涛,一种基于液态金属的分级预警锚杆及预警方法 [发明]. l 软件著作权 [1] 赵智,陈俊伟,肖南,寿云东,多尺度储层岩石工程失效分析软件,2024SR0056108. [2] 赵智,陈俊伟,数字多孔材料三维重构模型软件,2023SR1001798. [3] 赵智,多尺度数字多孔材料分析软件,2023SR1207435. |