任玉宾
个人信息Personal Information
副教授
硕士生导师
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:土木工程系
学科:岩土工程
办公地点:综合实验一号楼(海宇楼)207室
电子邮箱:renyubin@dlut.edu.cn
扫描关注
- [1]孙安元, Yang, Gang, 任玉宾, Kong, Gangqiang, Qing.Experimental study of ultra-high backpressure influence on the monotonic mechanical characteristi...[J],MARINE GEORESOURCES & GEOTECHNOLOGY,2024
- [2]Wang, Yin, 张世兴, 亓振, 任玉宾, Yang, Qing.Characterization of engineering properties of deep-water soils in the South China Sea[J],ENGINEERING GEOLOGY,2024,320
- [3]孙安元, 任玉宾, Yang, Gang, Yu, Long, Kong, Gangqiang, Wang, Ning, Qing.Ultrahigh static pore pressure effects on the undrained shear behavior of deep-sea cohesive soil[J],APPLIED OCEAN RESEARCH,2024,130
- [4]任玉宾, 张世兴, Wang, Yin, Yang, Qing, Zhou, Zefeng.Experimental study on the thixotropic mechanism of deep-sea clay from the perspective of microstr...[J],ACTA GEOTECHNICA,2024
- [5]任玉宾, 张世兴, Yang, Shaoli, Qing, Wang, Yin, He, Ben, Huan, Caiyun.Closure to "Experimental Study of the Thixotropic Strength Recovery and Microstructural Evolution...[J],JOURNAL OF GEOTECHNICAL AND GEOENVIRONMENTAL ENGINEERING,149(6)
- [6]Yang, Qing, 郑铮, 张世兴, Hesham El Naggar, M., Kong, Gangqiang, Gang, 任玉宾.Experimental study of the interface evolution behavior and softening mechanism of structure-marin...[J],SOILS AND FOUNDATIONS,2024,63(3)
- [7]孙安元, Yang, Gang, 任玉宾, Kong, Gangqiang, Qing.Experimental study on thermal effect of deep-sea cohesive sediment under monotonic and cyclic loa...[J],APPLIED OCEAN RESEARCH,2024,138
- [8]栾一晓, 唐小微, 任玉宾, Zhang, Xiwen.Numerical simulation of pore pressure development beneath suction anchor under undrained conditio...[J],APPLIED OCEAN RESEARCH,2024,140
- [9]孙安元, Yang, Gang, 任玉宾, Kong, Gangqiang, Qing.温升作用对深海沉积物静力特性及临界循环应力比的影响研究[J],Chinese Journal of Geotechnical Engineering,2024,45(10):2110-2118
- [10]Zhang, Xianwei, Liu, Xinyu, Xu, Yiqing, Wang, Gang, 任玉宾.Compressibility, permeability and microstructure of fine-grained soils containing diatom microfos...[J],GEOTECHNIQUE,2024
- [11]Hu, Mingjian, 李业伟, 庞子毅, Wang, Yin, 任玉宾.Development of drag force model for predicting the flow behavior of porous media based on genetic...[J],POWDER TECHNOLOGY,2024,413
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