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张文

发布日期:2022-03-01 作者: 编辑: 点击:

2C29B

简介

张文(1985.08-),教授、博导、国家优青,现任永利集团304am官方入口副经理。

   箱:zhang_wen@jlu.edu.cn

   话:0431-88502337

学术兼职:

中国地质学会工程地质专业委员会委员、国际海洋工程地质协会理事、中国土木工程学会工程风险与保险研究分会理事、中国地震学会地震灾害链专业委员会委员。

研究经历:

2019至今   永利集团304am官方入口工程地质系教授(破格)、博士生导师

2018-2019   加州大学伯克利分校土木与环境工程系 访问学者

2014-2018   成都理工大学环境与土木工程学院 博士后

2015-2019   永利集团304am官方入口工程地质系副教授、硕士生导师      

2013-2015   永利集团304am官方入口工程地质系讲师      

2007-2013   永利集团304am官方入口地质工程专业 硕博连续      

2003-2007   永利集团304am官方入口岩土工程专业 本科

科研项目:

近五年来作为负责人或子课题负责人承担的国家级课题如下:

1.国家自然科学基金优秀青年科学基金,42022053,工程地质与地质灾害,2021.01-2023.12,120万元,在研,主持

2.国家自然科学基金面上项目,41877220,快速隆升典型河段岸坡多尺度等 效结构模型与不确定灾变演化,2019.01-2022.12,61万元,在研,主持

3.国家重点研发计划子课题,2019YFA0705504,油页岩原位开采地质效应评价方法,2019.12-2024.11,127.5万元,在研,子课题主持

4.国家重点研发计划子课题,2017YFC1501004,强震区地质灾害演化机制研究,2018.1-2021.12,73万元,在研,子课题主持

5.国家自然科学基金青年科学基金,41402242,基于结构表征单元体的裂隙 岩体结构等效地质力学模型研究,2015.01-2017.12,25万元,已结题,主持

6.国家自然科学基金重点基金子课题,41330636,快速隆升典型河段复杂结构岩体 灾害与水库工程活动互馈机理研究,2014.01-2018.12,20万元,已结题,子课题主持

研究领域

地质灾害评价与防护、岩体结构精细描述、岩体力学分析与数值模拟。

主要论文

迄今,共发表60余篇SCI与EI检索论文。其中,以第一或通讯作者发表SCI检索论文24篇。具体如下:

[1] Donghui Chen, Huie Chen, Wen Zhang*, Junqing Lou, Bo Shan. An Analytical Solution of the Equivalent Elastic Modulus Considering the Confining Stress and Its Variables Sensitivity Analysis for Fractured Rock Masses. Journal of Rock Mechanics and Geotechnical Engineering, 2021(accepted).

[2] Chen Cao, Wen Zhang*, Jianping Chen, Shengyuan Song, Jiewei Zhan. Quantitative estimation of debris flow source materials by integrating multi-source data: A case study. Engineering Geology, 2021, 291 : 106222.

[3] Wenliang Ma, Huie Chen, Wen Zhang*, Chun Tan, Zhenbang Nie, Jia Wang, Qi Sun. Study on Representative Volume Elements Considering Inhomogeneity and Anisotropy of Rock Masses Characterised by Non-persistent Fractures. Rock Mechanics and Rock Engineering, 2021, 54(9): 4617-4637.

[4] Wen Zhang#, Jia Wang, Junqing Lou, Bo Shan, Jinfeng Liu, Fengyan Wang, Shengyuan Song. Simplified 3D modelling method and its uncertainty analysis for adit fractures collected within short sampling windows. Quarterly Journal of Engineering Geology and Hydrogeology, DOI: 10.1144/qjegh2020-096.

[5] Donghui Chen, Huie Chen, Wen Zhang*, Chen Cao, Kuanxing Zhu, Xiaoqing Yuan, Yanyan Du. Characteristics of the Residual Surface Deformation of Multiple Abandoned Mined-Out Areas Based on a Field Investigation and SBAS-InSAR: A Case Study in Jilin, China. Remote Sensing, 2020, 12(22): 3752-3752.

[6] Wen Zhang#, Jia Wang, Peihua Xu, Junqing Lou, Bo Shan, Fengyan Wang, Chen Cao, Xiaoxue Chen, Jinsheng Que. Stability evaluation and potential failure process of rock slopes characterized by non-persistent fractures. Natural Hazards and Earth System Sciences, 2020, 20(11): 2921-2935.

[7] Wen Zhang#, Zhiguang Lan, Zhifa Ma, Chun Tan, Jinsheng Que, Fengyan Wang, Chen Cao. Determination of statistical discontinuity persistence for a rock mass characterized by non-persistent fractures. International Journal of Rock Mechanics and Mining Sciences, 2020, 126: 104-177.

[8] Wen Zhang#, Rui Fu, Chun Tan, Zhifa Ma, Ying Zhang, Shengyuan Song, Peihua Xu, Shuonan Wang, Yunpeng Zhao. Two-Dimensional Discrepancies in Fracture Geometric Factors and Connectivity Between Field-Collected and Stochastically Modeled DFNs: A Case Study of Sluice Foundation Rock Mass in Datengxia, China. Rock Mechanics and Rock Engineering, 2020, 53: 2399-2417.

[9] Zhenbang Nie, Jianping Chen, Wen Zhang*, Chun Tan, Zhifa Ma, Fengyan Wang, Ying Zhang, Jinsheng Que. A New Method for Three-Dimensional Fracture Network Modelling for Trace Data Collected in a Large Sampling Window. Rock Mechanics and Rock Engineering, 2020, 53: 1145-1161.

[10] Wen Zhang#, Shuonan Wang, Shengyuan Song, Chun Tan, Zhifa Ma, Bo Shan, Peihua Xu. Determination of representative volume element with consideration of linear anisotropy using geostatistics approach. European Journal of Environmental and Civil Engineering, DOI: 10.1080/ 19648189.2020.1815588.

[11] Donghui Chen, Huie Chen, Wen Zhang*, Chun Tan, Zhifa Ma, Jianye Chen, Bo Shan. Buckling Failure Mechanism of a Rock Dam Foundation Fractured by Gentle Through-Going and Steep Structural Discontinuities. Sustainability, 2020,12(13): 5426.

[12] Chen Cao, Jianping Chen, Wen Zhang*, Peihua Xu, Lianjing Zheng, Chun Zhu. Geospatial Analysis of Mass-Wasting Susceptibility of Four Small Catchments in Mountainous Area of Miyun County, Beijing. International Journal of Environmental Research and Public Health, 2019, 16(15): 2801.

[13] Wen Zhang#, Qihua Zhao, Runqiu Huang, Donghe Ma, Jianping Chen, Peihua Xu, Jinsheng Que. Determination of representative volume element considering the probability that a sample can represent the investigated rock mass at Baihetan Dam site, China. Rock Mechanics and Rock Engineering, 2017, 50: 2817–2825.

[14] Wen Zhang#, Qihua Zhao, Jianping Chen, Runqiu Huang, Xiaoqing Yuan. Determining the critical slip surface of a fractured rock slope considering preexisting fractures and statistical methodology. Landslides, 2017, 14: 1253-1263.

[15] Huie Chen, Yaling Jiang, Wen Zhang*, Xiaohong He. Experimental study of the stabilization effect of cement on contaminated soil. Quarterly Journal of Engineering Geology and Hydrogeology, 2017, 50: 199-205.

[16] Wen Zhang#, Qihua Zhao, Runqiu Huang, Jianping Chen, Yiguo Xue, Peihua Xu. Identification of structural domains considering the size effect of rock mass discontinuities: A case study of an underground excavation in Baihetan Dam, China. Tunnelling and Underground Space Technology, 2016, 51: 75-83.

[17] Qing Wang, Yuanyuan Kong, Wen Zhang*. Regional debris flow susceptibility analysis based on principal component analysis and self-organizing map: a case study in Southwest China. Arab J Geosci, 2016, 9: 718.

[18] Wen Zhang#, Jianping Chen, Qing Wang, Jiyu Yan, Shuai Guan, Xueying Chen, Feifei Wang. Velocity and runout determination of a debris flow based on energy conservation: the Dongwopu debris flow in Tianjin, China. Quarterly Journal of Engineering Geology and Hydrogeology, 2015, 48(2015) 5–14.

[19] Wen Zhang#, Qing Wang, Jianping Chen, Huizhong Li, Jinsheng Que, Yuanyuan Kong.  Grain-Size Analysis of Debris Flow Alluvial Fans in Panxi Area along Jinsha River, China. Sustainability, 2015, 7, 15219-15242.

[20] Cencen Niu, Qing Wang, Jianping Chen, Wen Zhang*, et al. Hazard Assessment of Debris Flows in the Reservoir Region of Wudongde Hydropower Station in China. Sustainability, 2015, 7, 15099-15118.

[21] Wen Zhang#, Jianping Chen, Chen Huie, Dezhi Xu, Yan Li. Determination of RVE in the Consideration of the Spatial Effect. International Journal of Rock Mechanics and Mining Sciences, 2013, 61: 154-160.

[22] Wen Zhang#, Jian-ping Chen, Qing Wang, Yuke An, Xin Qian, Liangjun Xiang, Longxiang He. Susceptibility analysis of large-scale debris flows based on combination weighting and extension methods. Natural Hazards, 2013, 66, 1073-1100.

[23] Wen Zhang#, Jianping Chen, Zhongxing Cao, Ruiying Wang. Size effect of RQD and generalized representative volume elements: a case study on an underground excavation in Baihetan dam, Southwest China. Tunnelling and Underground Space Technology, 2013, 35: 89-98.

 [24] Wen Zhang#, Jianping Chen, Xiaoqing Yuan, Peihua Xu, Chen Zhang. Analysis of RVE size based on three-dimensional fracture numerical network modeling and stochastic mathematics. Quarterly Journal of Engineering Geology and Hydrogeology, 2013, 46: 31-40.

[25] Zhang Wen#, Jianping Chen, Zhang Wu, Lv Yan, Ma Yufei, Xiong Hui. Determination of the critical slip surface of fractured rock slopes based on fracture orientation data. SCIENCE CHINA Technological Sciences, 2013,56(5): 1248-1256.

[26] Zhang Wen#, Chen Jianping, Wang Qing, Ma Donghe, Niu Cencen, Zhang Wu. Investigation of RQD variation with scanline length and the optimal threshold based on three-dimensional fracture network modeling. SCIENCE CHINA Technological Sciences, 2013, 56: 739-748.

[27] Wen Zhang#, Qing Wang, Jianping Chen, Chun Tan, Xiaoqing Yuan, Fujun Zhou. Determination of the optimal threshold and length measurements for RQD calculations. International Journal of Rock Mechanics and Mining Sciences, 2012, 51: 1-12.

[28] Wen Zhang#, Jianping Chen, Chang Liu, Rui Huang, Ming Li, Ying Zhang. Determination of geometrical and structural representative volume elements at the Baihetan Dam site. Rock Mechanics and Rock Engineering, 2012, 45: 409-419.

[29] Wen Zhang#, HuiZhong Li, Jianping Chen, Chen Zhang, Liming Xu, Weifeng Sang. Comprehensive hazard assessment and protection of debris flows along Jinsha River close to the Wudongde dam site in China. Natural Hazards, 2011, 58: 459-477.

[30]孙琦,张文*,赵云鹏,韩博,赵潇涵. 高陡岩质斜坡结构面的无人机贴近采集与粗糙度分析. 工程地质学报,DOI:10.13544/j.cnki.jeg.2021-0406.

[31]张文#,韩博,孙昊林,陈浚淇,王硕男,孙琦,尹韩. 高陡岩质斜坡的结构面非接触式采集技术与三维裂隙网络模拟研究. 工程地质学报,2020,28(02):221-231.

专利成果与技术

(1) 张文, 陈剑平, 牛岑岑, 徐佩华, 占洁伟. 一种收集滑坡释光测试土样的装置. 2015.12.25, 中国, 201510990113.5 (已授权)

(2) 张文, 陈剑平, 牛岑岑, 徐佩华, 苑晓青. 一种泥石流运动与堆积过程模拟实验系统. 2015.11.12, 中国, 201510768066.X  (已授权)

(3) 张文, 陈剑平, 王清, 苑晓青, 牛岑岑. 一种利用超声波监测危岩体崩塌的装置. 2012.12.24, 中国, ZL201210566779.4  (已授权)

(4) 张文, 陈剑平, 王清, 苑晓青, 牛岑岑. 一种利用激光位移传感器监测危岩体崩塌的装置. 2012.12.24, 中国, ZL201210567021.2  (已授权)

(5) 张文, 王乐, 马智法, 谭春, 陈亚婷, 孙达, 李国良, 李彦良. 一种岩体结构面原位信息采集的自动化装置. 2017.3.8, 中国, ZL201720217890.0

(6) 张文, 陈剑平, 牛岑岑, 徐佩华, 苑晓青. 基于振动仪与成像设备实时监测预报泥石流的装置. 2015.11.9, 中国, ZL201520883124.9

(7) 张文, 陈剑平, 王清, 徐佩华, 陈慧娥, 陈东辉, 刘天玚. 一种基于多个拉线式位移传感器监测滑坡变形参数的装置. 2015.12.2, 中国, ZL201520981109.8

(8) 张文, 许扬, 马智法, 谭春, 苑晓青, 陈东辉, 刘天玚, 聂振邦, 陈怀玉, 兰志广, 陈俊淇, 杨光. 一种模拟岩体楔形体滑动的装置. 2018.1.10, 中国, 201810023476.5 (9) 张文, 陈怀玉, 陈东辉, 陈晓雪. 分节式弹性附支可回收锚杆. 2017.12.21, 中国, 201711395993.7

(10) 张文, 兰志广, 陈东辉. 一种适用于岩体大型结构系统的自钻进中空灌浆锚杆. 2017.12.8, 中国, 201711296947.1

获奖与荣誉

1.2017.10,国土资源科学技术奖二等奖“复杂结构裂隙岩体稳定性评价理论及关键技术”(R2)

2.2016.01,吉林省土木建筑学会科技进步奖二等奖“复杂结构裂隙岩体不确定性研究”(R2)

3.2015.10,吉林省自然科学学术成果奖二等奖“裂隙岩体结构参数研究”(R2)

4.2013.09,吉林省自然科学学术成果奖一等奖“区域性泥石流评价方法研究”(R2)

5.2015.12,中国地质学会第十五届“青年地质科技奖”(银锤奖)

6.2014.08,中国地质学会工程地质专业委员会第二届“谷德振青年科技奖”

7.2013.10,第四次全国“李四光优秀员工奖”(博士生奖)。

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