基本信息

 

张 妮/Ni ZHANG

博士,副教授

研究方向/Research Interests

1)  泥石流的侵蚀、堆积

2)泥石流的风险评价

3)滑坡的失稳机理

4)岩土材料的水-力耦合特征

联系方式

Email: nizhang961228@xjtu.edu.cn; 414630059@qq.com

通讯地址:陕西省西安市咸宁西路28号 西安交通大学 人居环境与建筑工程学院

办公地点:西安交大曲江校区西一楼A-506室

 

站点计数器
教育经历/Education

2012.8-2015.8 工学博士,构造能源工程专业,筑波大学

2009.9-2012.7 工学硕士,地质工程专业,兰州大学

2005.9-2009.7 工学学士,地质工程专业,兰州大学 

 

工作经历/Work Experiences

2019.3-至今 西安交通大学 副教授

2016.9-2019.2 西安交通大学 博士后

2016.1-2016.6 香港科技大学 博士后

 

科研项目/Funds and Projests

(2)震后泥石流的侵蚀-堆积演化特征研究(41807257),国家自然科学基金,2019.1-2021.12,主持

(1)汶川震区震后泥石流灾害的演化发展(2018M633519),中国博士后基金,2018.3-2019.2,主持

 

 

科研成果/Publications

 Ø  期刊论文/JOURNAL PAPER:

7)    N. Zhang, T. Matsushima, N.B. Peng. Numerical investigation of post-seismic debris flows in the epicentral area of the Wenchuan earthquake. Bulletin of Engineering Geology and the Environment. 2018: 1-16. DOI 10.1007/s10064-018-1359-6

6)    N. Zhang, Z.Z. Pan, J.C. Lei, Z.S. Liu. Effects of temperature on the fracture and fatigue damage of temperature sensitive hydrogels. RSC Adv., 2018, 8, 31048-31054

5)    N. Zhang, S.J. Zheng, Z.Z. Pan, Z.S. Liu. Phase Transition Effects on Mechanical Properties of NIPA Hydrogel. Polymers, 2018, 10(4), 358.

4)    N. Zhang, T. Matsushima. Numerical investigation of debris materials prior to debris flow hazards using satellite images. Geomorphology, 2018, 308: 54-63

3)    N. Zhang, T. Matsushima. Simulation of rainfall-induced debris flow considering material entrainment. Engineering Geology, 2016, 214: 107-115

2)    N. Zhang, T. Matsushima, Y. Yamada. Review on depositional behavior of viscous debris flow. International journal of environmental engineering, 2014, 1(2): 12-16 

1)    梁收运,秀梅. 泥石流型与地貌分形特征的系研究工程地2010, 18(5): 664-668

Ø 会议论文/PROCEEDINGS:

8)    N. Zhang, S.J. Zheng, Z.S. Liu. Numerical Simulation and Experimental Study of Crack Propagation of Polydimethylsiloxane. Procedia Engineering, 2017, 214: 59-68

7)    N. Zhang, etc. Debris flow simulation considering material entrainment by depth-integrated particle method. Abstract, EMI 2015, June 16-19, 2015, Stanford University.

6)    N. Zhang, T. Matsushima. Simulation of debris flow deposition by depth-integrated particle method. The 27th KKHTCNN Symposium on Civil Engineering

5)    N. Zhang, T. Matsushima. Depositional process of debris flow studied by depth integrated particle method, The 49th geotechnical engineering conference, 2014, 1961-1962

4)    N. Zhang, T. Matsushima, Y. Yamada. Efficient numerical simulation of debris flow with erosion and sedimentation. Computer Methods and Recent Advances in Geomechanics, 2014: 1529-1534

3)    N. Zhang, T. Matsushima. Simulation of large-scale debris flow with particle method. COMPSAFE2014, 394-396

2)    N. Zhang, T. Matsushima. Particle-based simulation of Zhouqu debris flow using satellite image, Proceedings of 10th GeoKanto conference, 2013.

1)    N. Zhang, S. Liang. Relationship between Debris Flow Types and Topographic Fractal Dimension Characteristics: a case study along the National Highway 212 in Longnan, China. 2010 International Conference on Advances in Computer Science and Engineering, 2010: 27-30

Ø 专利/PATENT:

1)     N. Peng, N. Zhang, B. Sun. A novel and opening checking dam of debris flow. 2012, CN201210206457.9