• 刘造保
  • 发布人: 发布日期:[2018-11-22] 点击次数:[2894]

  • 一、 个人基本情况

    刘造保,教授、博士生导师。国家级青年人才项目入选者,辽宁省“兴辽英才计划”青年拔尖人才沈阳市领军人才。主要从事多场岩石力学岩土及工程地质灾害防控方面教学与科研工作担任深部金属矿山安全开采教育部重点实验室常务副主任兼资源与土木工程学院副院长,东北大学深部工程与智能技术研究院常务副院长。

    主持或参与包括国家自然科学基金、国家科技部重点研发计划、欧盟国际合作重大项目、重大铁路深埋隧道可研论证、北山高放废物地下实验室建设、国家973项目课题等项目、课题20余项获教育部科技进步二等奖1中国岩石力学与工程学会科技进步一等奖1项、江西省科技进步三等奖1项,带领团队获“TBM掘进参数数据分享与机器学习”竞赛一等奖并获钱七虎院士颁发奖励2019年“陈宗基讲座”优秀学者2020-2022年度东北大学优秀教师,2022年东北大学“五四奖章”青年岗位能手。

    在领域国际权威期刊《International Journal of Rock Mechanics and Mining Science》《Rock Mechanics and Rock EngineeringGeotechnique和国内《岩石力学与工程学报》等相关出版物上发表论文90余篇,其中SCI收录期刊50余篇,SCI数据库h指数19获国家授权发明专利16计算机软件著作权4项

    任中国岩石力学与工程学会地震与地壳应力委员会副主任委员、多场耦合专业委员会副主任委员、青年工作委员会委员,国际岩石力学学会会员,国家重大铁路建设工程实施技术咨询专家组成员,多本国内外学术期刊编委及20余本国际学术期刊审稿人。

    兼任国家级青年人才项目评阅专家、学科建设评议专家、某省部级科技奖励评阅专家、某学科职称晋升评阅专家。

    二、 主要研究方向:

    高温多场岩体力学、非常规地质体渗流力学、工程地质灾害预控、高放废物地质处置与资源开采力学

    三、 学术兼职

    1. 学术期刊编委:
    1) J RockMech Geotech Eng (2021~)
    2) SMART CONSTR RES (2017~)

    3Adv Civil Eng (2018~)
    2. 主要期刊审稿人:
    International Journal of Rock Mechanics and Mining ScienceSCI收录

    Rock Mechanics and Rock Engineering》SCI收录

    Engineering Geology》SCI收录

    Geotechnique》SCI收录

    International Journal of GeomechanicsSCI收录

    Applied Thermal Engineering》

    Journal of Cleaner Production》

    《Engineering with Computers》SCI收录

    《Engineering Computation》SCI收录
    《Environmental Informatics》SCI收录
    《Applied Mathematical Modelling》SCI收录
    《European Journal of Environmental and Civil Engineering》SCI收录
    《Environmental Earth Science》SCI收录
    《Natural Hazards》SCI收录
    《Geomechanics and Engineering》SCI收录
    《Geomechanics and Engineering, An International Journal》SCI收录
    《Geomechanics for Energy and the Environment
    《Bulletin of Engineering Geology and the Environment》SCI收录

    四、 课程教学

    本科生:矿山岩体力学双语)、 《材料力学》(双语)

    研究生:《深部工程多场岩体力学基础》、《深部环境力学》、《地下空间开发与灾害防控》、《岩土工程安全智能分析方法》

    五、 近年主持或参与科研项目

    1) 国家自然科学基金项目衰变热作用下高放废物深地处置工程近场围岩屏障功能劣化机理研究54万元,主持
    2) 国家科技部重点研发计划重点专项子课题,深埋隧道极高地应力岩爆动态精细评估与等级划分技术研究,751万元,主持   

    3) 深部工程多场岩体力学与热害预控技术研究,辽宁省委组织部兴辽英才计划,50万元,主持  

    4) 重大铁路工程深部重大地质灾害孕灾机理研究,科技支撑重大铁路建设重大专项课题,西藏自治区,50万元  

    5) 某深埋隧道灾害监测预警与防控技术,新疆某管理局,1325万元,主持  

    6) 复杂铁路隧道岩体高温高压力学特性测试技术,中国铁道科学研究院,106万元,主持  

    7) 法国国家核废料管理署Andra应用基础研究项目, Instantaneous and time-dependent Thermo-Hydro-Mechanical behaviours of Cox claystone, 2015-, 参与
    8) 欧盟国际合作项目, Cement-based materials, properties, evolution, barrier functions (CEBAMA)-Work Package 1, 2015~, 参与
    9) 法国国家核废料管理署Andra应用基础研究项目, Hydro-mechanical and chemical degradation behaviours of interface between low-pH high-performance concrete and Callovo-Oxfordian claystone, 2015~, 参与

    六、 工作成绩

    1. 奖励荣誉
    2022年度中国岩石力学与工程学会科技进步一等奖

    2020-2022年度东北大学优秀教师

    2022年度东北大学“五四奖章”

    2022年东北大学优秀硕士学位论文指导教师

    2021年辽宁省教学成果一等奖

    2020年度江西省科技进步三等奖

    2010年度教育部科学技术进步二等奖

    2018年首届兴辽英才计划青年拔尖人才

    2019年“陈宗基讲座”优秀学者

    2. 5年发表主要研究论文
    [1]LIU Z, WANG H, LI Y, et al. Triaxial Compressive Strength, Failure, and Rockburst Potential of Granite Under High-Stress and Ground-Temperature Coupled Conditions [J]. Rock Mech Rock Eng, 2022.

    [2]ZHOU H, LIU Z, SHEN W, et al. Mechanical property and thermal degradation mechanism of granite in thermal-mechanical coupled triaxial compression [J]. Int J Rock Mech Min Sci, 2022, 160: 105270.

    [3]WANG K, LIU Z, ZENG T, et al. Performance of enhanced geothermal system with varying injection-production parameters and reservoir properties [J]. Appl Therm Eng, 2022, 207: 118160.

    [4]LIU Z, LIU B, ZHOU J, et al. Triaxial direct shear property and permeability change of interface between high-performance concrete and claystone with water injection and chemical leaching [J]. Construction and Building Materials, 2022, 356: 129307.

    [5]GAO Z, LIU Z, TIAN F, et al. Strength, energy evolution and cracking process of sandstone under high-temperature and high-pressure coupled true triaxial compression [J]. Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2022, 8(6): 1-19.

    [6]WANG C, LIU Z, ZHOU H, et al. A novel true triaxial test device with a high-temperature module for thermal-mechanical property characterization of hard rocks [J]. Eur J Environ Civ En, 2022: 1-18.

    [7]严孝海, 郭长宝, 刘造保, et al. 四川康定某深埋隧道花岗岩岩爆物理模拟实验研究 [J]. 地球科学, 2022, 47(6): 2081-93.

    [8]ZHANG Y, LIU Z, HAN B, et al. Numerical study of hydraulic fracture propagation in inherently laminated rocks accounting for bedding plane properties [J]. Journal of Petroleum Science and Engineering, 2022, 210: 109798.

    [9]ZENG T, LIU Z, JIA C, et al. Elasto-plastic behavior of the Fontainebleau sandstone based on a refined continuous strain deviation approach [J]. Eur J Environ Civ En, 2022, 26(9): 3788-804.

    [10]WU X, LIU Z. Advances in Deformation and Permeability Evolution during Creep of Rocks [J]. Geotechnics, 2022, 2(2): 317-34.

    [11]SHEN W Q, ZHU L P, LIU Z B, et al. Investigation of compressive and tensile behaviors for porous sandstone by a microstructure-based constitutive model [J]. Acta Geotech, 2022.

    [12]LIU Z, WANG Y, LI L, et al. Realtime prediction of hard rock TBM advance rate using temporal convolutional network (TCN) with tunnel construction big data [J]. Frontiers of Structural and Civil Engineering, 2022, 16(4): 401-13.

    [13]LI L, LIU Z, LU Y, et al. Hard-Rock TBM Thrust Prediction Using an Improved Two-Hidden-Layer Extreme Learning Machine [J]. IEEE Access, 2022, 10: 112695-712.

    [14]LI L, LIU Z, ZHOU H, et al. Prediction of TBM cutterhead speed and penetration rate for high-efficiency excavation of hard rock tunnel using CNN-LSTM model with construction big data [J]. Arab J Geosci, 2022, 15(3): 280.

    [15]刘造保, 王川, 周宏源, et al. 岩石高温高压两刚一柔型真三轴时效力学试验系统研制与应用 [J]. 岩石力学与工程学报, 2021, 40(12): 2477-86.

    [16]LIU Z, SHAO J, ZHA W, et al. Shear strength of interface between high-performance concrete and claystone in the context of a French radioactive waste repository project [J]. Géotechnique, 2021, 71(6): 534-47.

    [17]LIU Z, LI L, FANG X, et al. Hard-rock tunnel lithology prediction with TBM construction big data using a global-attention-mechanism-based LSTM network [J]. Automat Constr 2021, 125: 103647.

    [18]ZHANG Y, SHAO J, LIU Z, et al. An improved hydromechanical model for particle flow simulation of fractures in fluid-saturated rocks [J]. Int J Rock Mech Min Sci, 2021, 147: 104870.

    [19]ZHA W, ZHOU H, LIU Z, et al. Experimental study of gas permeability evolution in tight sandstone with damage and cracking along various stress loading paths [J]. Bull Eng Geol Environ, 2021, 80(10): 7847-63.

    [20]SUN Y, LIU Z, FENG T, et al. Modified KCC model for modelling mechanical behaviour of quartz sandstone under triaxial compression from low to high confining pressures [J]. Eur J Environ Civ En, 2021: 1-17.

    [21]FENG J, MA Y, LIU Z. A Study on the Creep Characteristics of Airport Viscous Subsoil Based on Unsaturated Stress Level [J]. Geofluids, 2021, 2021: 6667245.

    [22]李龙, 刘造保, 周宏源, et al. 基于TBM岩机信息的隧洞断层超前智能感知加权投票模型研究 [J]. 岩石力学与工程学报, 2020, 39(s2): 3403-11.

    [23]SHEN W, YAJUN C, LIU Z, et al. A multiscale elastoplastic constitutive model for geomaterials with a porous matrix-inclusion microstructure [J]. Comput Geotech, 2020, 126.

    [24]LIU T, LI L, LIU Z, et al. Geomechanical properties of synthesised clayey rocks in process of high-pressure compression and consolidation [J]. Geomechanics and Engineering 2020, 20(6): 537-46.

    [25]ZHANG Y, SHAO J, LIU Z, et al. Effects of confining pressure and loading path on deformation and strength of cohesive granular materials: a three-dimensional DEM analysis [J]. Acta Geotech, 2019, 14(2): 443-60.

    [26]SHEN W, SHAO J, LIU Z. Evaluation and improvement of macroscopic yield criteria of porous media having a Drucker-Prager matrix [J]. Int J Plast, 2019, 126.

    [27]LIU Z, ZHOU H, ZHANG W, et al. A new experimental method for tensile property study of quartz sandstone under confining pressure [J]. Int J Rock Mech Min Sci, 2019, 123: 104091.

    [28]LIU Z, SHAO J, XIE S, et al. Mechanical Behavior of Claystone in Lateral Decompression Test and Thermal Effect [J]. Rock Mech Rock Eng, 2019, 52(2): 321-34.

    [29]ZHANG Y, LIU Z, SHI C, et al. Three-dimensional Reconstruction of Block Shape Irregularity and its Effects on Block Impacts Using an Energy-Based Approach [J]. Rock Mech Rock Eng, 2018, 51(4): 1173-91.

    [30]LIU Z B, XIE S Y, SHAO J F, et al. Multi-step triaxial compressive creep behaviour and induced gas permeability change of clay-rich rock [J]. Géotechnique, 2018, 68(4): 281-9.

    [31]LIU Z, SHAO J, XIE S, et al. Effects of relative humidity and mineral compositions on creep deformation and failure of a claystone under compression [J]. Int J Rock Mech Min Sci, 2018, 103: 68-76.

    [32]CHEN H, LIU Z. Temperature control and thermal-induced stress field analysis of GongGuoQiao RCC dam [J]. J Therm Anal Calorim, 2018.

    [33]LIU Z, SHAO J. Strength behavior, creep failure and gas permeability change in a tight marble under triaxial compression [J]. Rock Mech Rock Eng, 2017, 50(3): 529-41.

    七、 招生信息

    1. 博士后招聘

    根据项目研究需要以及团队发展需要,常年招收博士后,包括海外高水平博士后以、计划内博士后和在职博士后,待遇从优

    2. 研究生招生
    每年招收博士生1~2名、硕士生2~3名。热忱欢迎力学、土木、采矿、地质等相关专业学生报考研究生,共建美好未来。将根据工作态度和成绩进行资助和奖励。同时,欢迎其他院校岩土、采矿、工程力学和地质工程等相关专业研究生联系联合培养,提供优厚的研究和资助条件。
    3本科生创新训练
    每年指导本科生创新训练项目1~2项,欢迎广大有兴趣同学报名参加。根据项目需要提供试验设备、材料和分析软件。


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