刘闯,男,1992年4月生,安徽阜阳人,博士,副教授。主要从事计算力学、力学和声学超材料、机器学习和仿生材料等研究。主持国家自然科学基金青年项目,安徽省青年科学基金,江苏省“双创博士”等纵向科研项目4项。在Journal of Petroleum Science and Engineering,Gas Science and Engineering, Extreme Mechanics Letters, Composite Structures,Science China Physics, Mechanics & Astronomy,应用数学和力学等学术期刊共发表SCI论文20余篇,其中第一/通讯SCI论文16篇,Google Scholar引用690余次。
Ø 主要研究领域
计算力学、力学和声学超材料、机器学习和仿生材料。
Ø 受教育经历
2013/09 – 2017/11, 中国科学技术大学,固体力学,工学博士。
2009/09 – 2013/07, 南华大学,安全工程,工学学士。
Ø 研究工作经历
2019/12 – 至今, bat365官网登录,力学与工程材料系,副教授。
2017/12 – 2019/12, 中国科学技术大学,近代力学系,博士后。
Ø 科研项目
项目名称 | 项目来源 | 起止年月 | 负责内容 |
岩储层水力裂缝扩展与岩石损伤耦合的相场法数值模拟研究 | 国家自然科学基金 | 2022.01-2024.12 | 主持 |
非均质页岩储层水力裂缝扩展规律与复杂裂缝数值模拟 | 安徽省自然科学基金 | 2019.07-2021.06 | 主持 |
基于页岩塑性-损伤耦合分析的三维裂缝相交模拟研究理与结构性能研究 | 江苏省高校自然科学研究面上项目 | 2021.07-2023.06 | 主持 |
江苏省双创博士 | 江苏省人力资源与社会保障厅 | 2020.07-2023.06 | 主持 |
轻质吸能结构的耐撞性设计 | 中国科学技术大学重要方向培育基金 | 2018.07-2020.06 | 参与 |
Ø 指导学生获奖情况
获奖项目 | 指导学生 | 等级 | 起止年月 |
江苏省研究生数学建模竞赛 | 刘贤,倪瑞,周翔龙 | 三等奖 | 2023.08 |
大学生创新创业项目 | 周驭恒,张亦祁,石向阳 | 省级一般项目 | 2022.07-2023.06 |
Ø 代表性论文
* 通讯作者,# 共同一作
[1] Liu C*, Wu H A. cv-PINN: Efficient learning of variational physics-informed neural network with domain decomposition. Extreme Mechanics Letters, 2023, 63: 102051. (SCI)
[2] Liu C*, Zhao A G, Wu H A. Competition growth of biwing hydraulic fractures in naturally fractured reservoirs. Gas Science and Engineering, 2023, 109: 204873. (SCI)
[3] Liu C*, Wu H A. A Variational Formulation of Physics-Informed Neural Network for the Applications of Homogeneous and Heterogeneous Material Properties Identification. International Journal of Applied Mechanics, 2023, 15(08): 2350065. (SCI)
[4] Liu C, He Q, Zhao A, et al. Operator Learning for Predicting Mechanical Response of Hierarchical Composites with Applications of Inverse Design. International Journal of Applied Mechanics, 2023, 15(04): 2350028. (SCI)
[5] He Q S, Liu C*. Phase Field Modeling of Multiple Fracture Growth in Natural Fractured Reservoirs. Geofluids, 2023, 2023. (SCI)
[6] Liu C*, Wang Z. Numerical simulation of hydraulic fracture propagation in shale with plastic deformation. International Journal of Fracture, 2022, 238(2): 115-132. (SCI)
[7] Cao Y, He Q, Liu C*. Numerical Investigation of Fracture Morphology Characteristics in Heterogeneous Reservoirs. Processes, 2022, 10(12): 2604. (SCI)
[8] Liu C, Zhang J N, Yu H, et al. New insights of natural fractures growth and stimulation optimization based on a three-dimensional cohesive zone model. Journal of Natural Gas Science and Engineering, 2020, 76: 103165. (SCI)
[9] Liu C, Shen Y K, Zhang J N, et al. Production analysis in shale gas reservoirs based on fracturing-enhanced permeability areas. Science China Physics, Mechanics & Astronomy, 2019, 62(10): 104611. (SCI)
[10] Liu C, Jin X, Shi F, et al. Numerical investigation on the critical factors in successfully creating fracture network in heterogeneous shale reservoirs. Journal of Natural Gas Science and Engineering, 2018, 59: 427-439. (SCI)
[11] Liu C, Shi F, Lu D T, et al. Numerical simulation of simultaneous multiple fractures initiation in unconventional reservoirs through injection control of horizontal well. Journal of Petroleum Science and Engineering, 2017, 159: 603-613. (SCI)
[12] Liu C, Shi F, Zhang Y P, et al. High injection rate stimulation for improving the fracture complexity in tight-oil sandstone reservoirs. Journal of Natural Gas Science and Engineering, 2017, 42: 133-141. (SCI)
[13] Liu C, Wang X L, Deng D W, et al. Optimal spacing of sequential and simultaneous fracturing in horizontal well. Journal of Natural Gas Science and Engineering, 2016, 29: 329-336. (SCI)
[14] Liu C, Liu H, Zhang Y P, et al. Optimal spacing of staged fracturing in horizontal shale-gas well. Journal of Petroleum Science and Engineering, 2015, 132: 86-93. (SCI)
[15] Zhao A#, Liu C#, Zheng Y, et al. Evaluation of shock migration performance for a multi-stable mechanical metamaterial. Composite Structures, 2023, 321: 117312. (SCI)
[16] Zhao A#, Liu C#, Zou H, et al. Massive and fast fabrication of pentamode devices through a multiphase honeycomb-corrugation configuration. Materials & Design, 2023, 228: 111816. (SCI)
[17] 曹玉玲, 何强胜, 刘闯*. 考虑页岩塑性变形的水力裂缝与天然裂缝相交模拟研究. 应用数学和力学, 2023,(1000-0887), 44(6). (中文核心)
[18] 李金矿,万文玉,刘闯*. 形状记忆合金蜂窝结构抗冲击性能研究. 应用数学和力学,2023,44. (中文核心)
[19] Zhao A, Jia H, Zhang M, Wang Z, Zhou P, Liu C, ... & Song B. Design and experimental verification of a broadband multiphase pentamode material. Physical Review Applied, 2022, 18(3): 034001.
[20] Zhao A, Xie J, Zhao Y, Liu C, Zhu J, Qian G, ... & Hong Y. Fatigue limit evaluation via infrared thermography for a high strength steel with two strength levels. Engineering Fracture Mechanics, 2022, 268: 108460.
[21] Cao G, Zhang J, Guo Y, Liu C, Micheal M, Lv C, ... & Wu H. Numerical modeling on friction and wear behaviors of all-metal progressive cavity pump. Journal of Petroleum Science and Engineering, 2022, 213: 110443.
[22] Zhang J, Yu H, Wang Q, Lv C, Liu C, Shi F, & Wu H. Hydraulic fracture propagation at weak interfaces between contrasting layers in shale using XFEM with energy-based criterion. Journal of Natural Gas Science and Engineering, 2022, 101: 104502.
[23] Gao H L, Zhao R, Cui C, Zhu Y B, Chen S M, Pan Z, YF Meng, Wen SM, Liu C, Wu HA, & Yu S H. Bioinspired hierarchical helical nanocomposite macrofibers based on bacterial cellulose nanofibers. National Science Review, 2020, 7(1): 73-83.
[24] Zhou L C, Chen M W, Liu C, et al. A multi-scale stochastic fracture model for characterizing the tensile behavior of 2D woven composites. Composite Structures, 2018, 204: 536-547.
[25] Shi F, Wang X L, Liu C, et al. An XFEM-based numerical model to calculate conductivity of propped fracture considering proppant transport, embedment and crushing. Journal of Petroleum Science and Engineering, 2018, 167: 615-626.
[26] Wang X L, Shi F, Liu C, et al. Extended finite element simulation of fracture network propagation in formation containing frictional and cemented natural fractures. Journal of Natural Gas Science and Engineering, 2018, 50: 309-324.
[27] Shi F, Wang X, Liu C, et al. An XFEM-based method with reduction technique for modeling hydraulic fracture propagation in formations containing frictional natural fractures. Engineering Fracture Mechanics, 2017, 173: 64-90.
[28] Wang X L, Liu C, Wang H, et al. Comparison of consecutive and alternate hydraulic fracturing in horizontal wells using XFEM-based cohesive zone method. Journal of Petroleum Science and Engineering, 2016, 143: 14-25.
[29] Shi F, Wang X L, Liu C, et al. A coupled extended finite element approach for modeling hydraulic fracturing in consideration of proppant. Journal of Natural Gas Science and Engineering, 2016, 33: 885-897.
Ø 招生专业
硕士研究生:工程力学,土木水利。
Ø 联系方式
Email:liuc@njtech.edu.cn
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