张卫强
近期热点
资料介绍
个人简历
张卫强(1989-),男,河南省长垣市人,工学博士,讲师/硕士生导师。2017年6月获中国矿业大学地质资源与地质工程专业博士学位,2017.07-2019.07在中国矿业大学地质学博士后流动站从事师资博士后研究工作,2019.01-2019.04在美国北卡罗来纳大学夏洛特分校访学,2019年7月入职资源与地球科学学院地质工程系。主持国家自然科学基金青年基金、中国博士后基金特别资助、江苏省青年基金、中国博士后基金面上二等资助、江苏省博士后基金A类资助和中央高校基本科研业务经费专项资金各1项,并参与数项国家自然科学基金面上基金项目。出版专著3部(第一作者1部,第二作者2部),发表学术论文50余篇,其中SCI论文30余篇(第一/通信作者20篇)。主持或参加科研项目:主持 2018年中国自然科学青年基金项目“基于热损伤效应的煤层覆岩渗透性演变机制研究”(项目编号:41807233) 在研主持 第十二批中国博士后基金特别资助项目“冷热循环作用对深部地热岩体(EGS)的影响机制研究” (项目编号:2019T120479) 在研主持 2018年江苏省青年基金项目“基于热损伤效应的深部硬岩可钻性动态演变机制研究”(项目编号:BK20180662) 在研主持 2018年中央高校基本科研业务经费青年基金项目“热损伤后岩石物理力学性质随时间的演变特征及其机理研究”(项目编号:2018QNA42 在研主持 2018年江苏省博士后基金A类资助项目“基于温度路径与时空特征的岩石热损伤演变机制研究” 结题主持 2017年中国博士后科学基金面上项目“温度路径对岩石热损伤的影响机制研究”(项目编号:2017M621872) 结题主持 2016年江苏省普通高校研究生科研创新计划项目“热损伤后岩石物理力学性质变化及成因机制研究”(项目编号:KYZZ16_0221) 结题参与 国家自然科学基金面上项目:深部工程温度路径与围压对岩石脆-塑转变机制的影响(No. 41672279)参与 国家自然科学基金面上项目:煤多孔介质水合物法存储CO2过程气-液-固多相场耦合机制(No. 51674240)参与 中国地质调查局水文地质环境地质调查中心:云南昭通地质灾害调查与监测2014年度工程地质勘查与岩土试验 参与 江苏省地质调查研究院开放基金:地裂缝演化时空特征多物理场试验研究参与 宁夏公路建设管理局:富水深埋结构性软岩大变形控制技术 合著:[1] 张卫强,孙强,李文平,姜春露,赵春虎,薛雷,姚亚辉. 岩土体渗流过程地电响应特征研究及应用. 徐州:中国矿业大学出版社,2019,01.[2] 孙强,张卫强,李文平,薛雷,张玉春. 岩石热损伤与物理力学性质演变及应用. 徐州:中国矿业大学出版社,2017,12.[3] 朱锦旗,张卫强,于军,龚绪龙,孙强,王光亚,张岩. 土体裂缝危害及试验研究. 徐州:中国矿业大学出版社,2016,8.研究领域
主要从事工程地质、岩石热力学和地质灾害等方面的教学科研工作,对地热资源开发、深部热力破岩钻探及煤炭地下气化等方向有浓厚兴趣。""近期论文
[1]Weiqiang Zhang,Qiang Sun,Yuliang Zhang.Effects of pre-existing cracks and temperature on failure mode of granite from Eastern China.Journal of Structural Geology,2019,126:330-337.[2]Weiqiang Zhang,Qiang Sun,Yanming Zhu,Weihong Guo.Experimental study on response characteristics of micro-macroscopic performance of red sandstone after high-temperature treatment.Journal of Thermal Analysis and Calorimetry,2019,136(5):1935-1945.[3]Weiqiang Zhang,Yuliang Zhang,Qiang Sun*.Analyses of Influencing Factors for Radon Emanation and Exhalation in Soil.Water Air and Soil Pollution,2019,230(1):16.[4]Weiqiang Zhang,Haitao Zhou,Weihong Guo.Experimental study on seepage characteristics of fractured rock mass and its electrical response.Journal of Hydrologic Engineering,2019,24(7):04019017.[5]Weiqiang Zhang,Qiang Sun.Identification of primary mineral elements and macroscopic parameters in the thermal damage process of limestone with canonical correlation analysis.Rock Mechanics and Rock Engineering,2018,51:1287-1292.[6]Weiqiang Zhang,Qiang Sun,XiuyuanYang.Thermal effects on arsenic emissions during coal combustion process.Science of the Total Environment,2018,612:582-589.[7]Weiqiang Zhang,Qiang Sun,Yuliang Zhang,Lei Xue,Fangan Kong.Porosity and wave velocity evolution of granite after high temperature treatment:a review.Environmental Earth Sciences,2018,77:350.[8]Weiqiang Zhang,Qiang Sun,Yuliang Zhang.Correlation analyses of effects of temperature on physical and mechanical properties of clay.Environmental Earth Sciences,2018,77:614.[9]Weiqiang Zhang,Qiang Sun,Shuyun Zhu,Bo Wang.Experimental study on mechanical and porous characteristics of limestone affected by high temperature,Applied Thermal Engineering,2017,110:356-362.[10]Weiqiang Zhang,Qiang Sun,Liwen Cao,Bo Wang.Thermal damage on claystone after exposed to different high temperatures:a review.Geotechnical Testing Journal,2017,40(2):20160106.[11]Weiqiang Zhang,Qiang Sun,Shuyun Zhu,Bo Wang.The effect of thermal damage on electrical resistivity of sandstone.Journal of Geophysics and Engineering,2017,14(2):408-416.[12]Weiqiang Zhang,Qiang Sun,Shuqing Hao,Bo Wang.Experimental study on the thermal damage characteristics of limestone and underlying mechanism.Rock Mechanics and Rock Engineering,2016,49:2999-3008.[13]Weiqiang Zhang,Qiang Sun,Shuqing Hao,Lining Yang.Experimental study of the effect of thermal damage on resistivity and mechanical properties of sandstone.Acta Geodynamica et Geomaterialia,2016,13(2):185-192.[14]Weiqiang Zhang,Haitao Qian,Qiang Sun,Yuhua Chen.Experimental study of the effect of high temperature on primary wave velocity and microstructure of limestone.Environ.Earth Sci.2015,74:5739-5748.[15]Weiqiang Zhang,Qiang Sun,Shuqing Hao,Jishi Geng,Chao Lv.Experimental study on the variation of physical and mechanical properties of rock after high temperature treatment.Applied Thermal Engineering,2016,98:1297-1304.[16]Shuyun Zhu,Weiqiang Zhang*,Qiang Sun*,Shu Deng,Jishi Geng,Chongmao Li.Thermally induced variation of primary wave velocity in granite from Yantai:experimental and modeling result.International Journal of Thermal Sciences,2017,114:320-326.[17]Qiang Sun,Weiqiang Zhang*,Yuliang Zhang,Lining Yang.Variations of strength,resistivity and thermal parameters to clay after high temperature Treatment.Acta Geophysica,2016,64(6):2077-2091.[18]Qiang Sun,Weiqiang Zhang,Tianming Su,Shuyu Zhu.Variation of wave velocity and porosity of sandstone after high temperature heating.Acta Geophysica,2016,64(3):633-648.[19]Qiang Sun,Weiqiang Zhang,Lei Xue,Zhizhen Zhang,Tianmin Sun.Thermal damage pattern and thresholds of granite.Environmental Earth Science,2015,74:2341-2349.[20]Qiang Sun,Weiqiang Zhang*,Haitao Qian.Effects of high temperature thermal treatment on the physical properties of clay.Environmental Earth Sciences,2016,75:610-617.[21]Qiang Sun,Weiqiang Zhang,Liwen Cao.Effects of high temperature thermal treatment on the physical properties of clay.Environmental Earth Sciences,2016,75:610.中国岩石力学与工程协会会员。担任《Applied Energy》、《Applied Thermal Engineering》、《Engineering Geology》、《Rock Mechanics and Rock Engineering》等多个国际期刊的审稿人。 相关热点
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