Department of geology northwest university

Teacher Name

1、 Personal profile

Li Ping, female, lecturer and master tutor, Department of geology, Northwest University.

Education experience:

2007.09-2011.07: Bachelor of geological engineering, Chang'an University;

2011.09-2013.07 master's thesis of geological engineering of Chang'an University on the law of water transfer in loess;

2013.09-2016.12: prediction of the eating induced collapse behavior of unsaturated soils;

2014.09-2016.09 Ph.D. in civil engineering of University of Ottawa, Canada.

Work experience:

March 2017 - lecturer in geological engineering of Northwest University;

April 2019 - August 2019 visiting scholar of civil engineering of University of Ottawa, Canada.

2、 Scientific research

1. Academic papers

Wang Jiading, Li Ping*,Ma Yan, Sai K Vanapalli, Wang Xingang. 2019. Change in pore-size distribution of collapsible loess due to loading and inundating. Acta Geotechnica, https://doi.org/10.1007/s11440-019-00815-9. Correspondence author, SCI search

Li Ping, Xie Wanli *, Pak Ronald y. S., vanapalli Sai K. 2018 microstructural evolution of loess soils from the Loess platform of China. Catena, 173:276-288. SCI search

Wang Jiading,Li Ping*, Gu Qi, Xu Yuanjun, Gu Tianfeng. 2017. Influence of microstructure on the mechanical behavior of loess soils. Journal of Asian Earth Sciences, doi.org/10 . 1016 / j.jseaes.2018.10.011. Corresponding author, SCI search

Wang Jiading, Li Ping*,Ma Yan, Sai K Vanapalli. 2018. Evolution of pore-size distribution of intact loess and remolded loess due to consolidation. Journal of Soils and Sediments, doi.org/10 . 1007 / s11368-018-2136-7. Corresponding author, SCI search

Xie Wanli, Li Ping *, Zhang Maosheng, Cheng Tian'e, Wang Yong. 2018. Collapse behavior and microstructural evolution of love soils from the love plateau of China. Journal of mountain science, 15 (8): 1642-1657. Corresponding author, SCI search

Li Ping and vanapelli Sai k *. 2018. Simple method for prediction of the collapse behavior due to tweeting. International Journal of geomechanics, 18 (11): 06018026. SCI retrieval

Wang Jiading, Li Ping *, Ma Yan, Li Tonglu. 2018. Influence of inflammation method on the information in love: field study in the love platform. Destination & water treatment, 110:298-307

Li Ping, Li Tonglu *, and vanapelli Sai K. 2018. Prediction of the soil water characteristic curve for Malan love in the love platform of China. Journal of Central South University, 25: 432-447

Xie Wanli, Li Ping *, vanapelli Sai K., Wang Jiading. 2018. Method for predicting the weeding induced collapse behavior using the soil water characteristic curve as a tool. Journal of Asian Earth Science, 151: 259-268. Corresponding author, SCI search

Li Ping, Li Tonglu *, and vanapelli Sai K. 2016. Influence of environmental factors on the visiting front depth: a case study in the love platform. Engineering geography, 214: 1-10. SCI search

Li Ping, Vanapalli Sai K.*,and Li Tonglu. 2016. Review of collapse triggering mechanism of collapsible soils due to wetting. Journal of Rock Mechanics and Geotechnical Engineering, 8: 256-274.

Li Ping, vanapelli Sai K. 2018. Relationship between the weeding induced collapses and soil water characteristic curve of unsaturated soils. The 7th International Conference on unsaturated soils (Hong Kong, China, 3-5 August 2018)

Li Ping, vanapelli Sai K., and Li Tonglu. 2015. Understanding the collaborative behavior of love from microstructure information. In unsaturated soil mechanics from theory to practice: Proceedings of the 6th Asia Pacific Conference on unsaturated soils (Guilin, China, 23-26 October 2015)

Li Ping, vanapelli Sai K., and Li Tonglu. 2015. Estimation of the visiting front depth in a loess soil deposit in response to environmental factors. In 68th Canadian geotechnical conference and 7th Canadian Permafost Conference (Quebec City, Canada, 20-23 September 2015). Conference paper

Li Ping, Li Tonglu, Xing Xiangli, Wang Hong. 2015. In situ observation on regulations of railway information in cold and dry love area. In IAEG XII Congress on engineering geography for society and territory (Torino, Italy, 15-19 September 2014). Conference Papers

Li Ping, Li Tonglu, Fu Yukai, Chang Wei, Hou Xiaokun, Zhao Quan. On site monitoring of rainfall infiltration in unsaturated loess. Journal of Central South University, 2014, 45 (10): 3551-3560. EI search

Li Ping, Li Tonglu, Hou Xiaokun, Niu Shuxuan, Fu Yukai, Zhao Quan. Field test of capillary rise rate in loess. Journal of Hehai University, 2014, 42 (6): 503-507

Li Ping, Zhang Zhichao, Xu Jinliang, Xin Pengzhen. Study on highway hydrological regionalization in Shandong Province. Highway transportation technology, 2014, 31 (6): 53-62

Li Ping, Li Tonglu, Wang Hong, Xing Xianli. Prediction of soil water characteristic curve and permeability coefficient of unsaturated loess by Childs & Collis-Geroge model. Geotechnical mechanics, 2013, 34 (supp.2): 184-189. EI retrieval

Li Ping, Li Tonglu, Wang Adan, Zhang Yaguo, Liang Yan, Zhao Jifei. Field test and Study on water transfer in loess. Geotechnical mechanics, 2013, 34 (5): 1331-1339. EI search

Li Ping, Zhao Jifei, Li Tonglu. Study on reliability of loess high slope in Xiangning Jixian area, Shanxi Province. Journal of Geoscience and environment, 2012, 34 (2): 81-89

Li Ping. 2013. Study on the law of water transfer in loess, master's thesis, Chang'an University, Xi'an, China. Master's thesis

Li Ping. 2016. Prediction of the weeding induced collapse behavior of unsaturated soils. PhD thesis, Chang'an University, Xi'an, China

2. Scientific research projects

From March 2017 to now, the sub topic of "Research on the mechanism of artificial vibration promoting seepage and sliding of loess landslides" of the key project of National Natural Science Foundation of China, "Research on the deformation characteristics and microstructure evolution of compacted loess", presided over;

From July 2018 to September 2020, open fund of Shaanxi Key Laboratory of Loess Mechanics and Engineering "Research on wetting deformation characteristics and prediction model of compacted loess", presided over;

July 2019 to June 2021, China Postdoctoral fund "multi scale quantitative study on the microstructure of loess landslide slip zone soil", presided over.

3. Academic monograph

4. Academic conferences and exchanges

5. Scientific Research Award

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Li Ping

Departments:Geological Engineering Teaching and Research Office
Title:Lecturer
Direction:Unsaturated soil mechanics, unsaturated soil constitution, loess microstructure, loess moisture transfer
Email:20175080@nwu.edu.cn, LP19881028@163.com

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