基本信息
- 所属机构: 京都大学土木与地球资源工程系
- 学位: 工学博士
- 研究领域: 地质工程 | 岩土力学
- 联系方式: liyatao2020@outlook.com | liyatao2020的个人博客
- 学术档案:

核心研究聚焦
✅ 采矿诱发断层力学
✅ 深部岩体能量演化机理
✅ 三维地质建模与数值仿真
✅ 岩爆风险定量评估体系
✅ 非均质地层破裂动力学
学术成果
采矿诱发断层力学
- Li Y et al. (2024)
Heterogeneous layer effects on mining-induced dynamic ruptures
Computers & Geosciences (IF:4.6 | Q1)
▶ DOI:10.1016/j.cageo.2024.105776 - Li Y et al. (2024)
3-D Modeling of Deep Mining-Induced Fault Rupture and Its Impact on Working Face Stability
International Journal of Rock Mechanics (Top 1%, IF:7.2) - Li Y et al. (2024)
Mining-induced fault failure and coseismic slip based on numerical investigation
Bulletin of Engineering Geology and the Environment, (IF:4.2 | Q2) ▶ DOI:10.1007/s10064-024-03888-3

地质建模与数值模拟
- Li Y et al. (2024)
Spatial distribution of strain energy changes due to mining-induced fault coseismic slip
Rock Mechanics and Rock Engineering(IF:6.4)
▶ DOI:10.1007/s00603-024-04232-7 - Li Y et al. (2024)
Quantitative 3-D Investigation of Faulting in Deep Mining Using Mohr-Coulomb Criterion and Slip Weakening Law
Geomechanics and Geophysics for Geo-Energy and Geo-Resources

工程风险评估
- Li Y et al. (2024)
Fault quasi-static and dynamic ruptures in deep coal mining: Impacts on working faces
Bulletin of Engineering Geology and the Environment, 83(12), 515.(IF:4.2 | Q2)▶ DOI:10.1007/s10064-024-04017-w - Li Y et al. (2024)
Assessment of variations in shear strain energy induced by fault coseismic slip in deep longwall mining
International Journal of Coal Science and Technology ,16 January 2025 Volume 12, article number 3, (2025)(IF:3.8 | Q2)
▶ DOI:10.1007/s40789-024-00742-5

非均质地层动力学
- Li Y et al. (2024)
Fault slip amplification mechanisms in deep mining due to heterogeneous geological layers
Engineering Failure Analysis, 169, 109155.(IF:4.2 | Q1)
▶ DOI:10.1016/j.engfailanal.2024.109155 - Li Y et al. (2024)
Mining-Induced Dynamic Rupture of Non-planar Faults in Heterogeneous Layered Media
Engineering Geology
跨学科合作研究
- Fu, T., Yan, F., Zhu, D., & Li, Y. (2024)
An internal-strain loading approach for quasi-static fracturing in brittle rocks via the grain-based model
Engineering Analysis with Boundary Elements, 169, 105996.(IF:4.2 | Q1)
▶ DOI:10.1016/j.engfailanal.2024.109155
发明专利
- 恒定接触面积和恒定速度的测量岩石界面摩擦参数的装置
- 一种矿山抗震高水充填材料设计方法和高水充填材料(发明专利实质审查中)
- 一种测量岩石界面摩擦参数的装置和测量方法(发明专利实质审查中)
- 基于地震成核距离的采矿停采线确定方法和系统 (发明专利实质审查中)
- 一种断层构造场景下的巷道支护确定方法(发明专利实质审查中)
审稿期刊
- Rock Mechanics and Rock Engineering(2区top)
- Tunneling and Underground Space Technology (1 区top)
- Bulletin of Engineering Geology and the Environment (2区)
- Geotechnical and Geological Engineering (Q2 Cite Score 3.70)