Numerical investigation of the recent Chenhecun landslide (Gansu, China) using the discrete element method
出版年份 2020 全文链接
标题
Numerical investigation of the recent Chenhecun landslide (Gansu, China) using the discrete element method
作者
关键词
-
出版物
Natural Hazards
Volume -, Issue -, Pages -
出版商
Springer Science and Business Media LLC
发表日期
2020-09-27
DOI
10.1007/s11069-020-04333-w
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- The influence of DEM spatial resolution on landslide susceptibility mapping in the Baxie River basin, NW China
- (2020) Zhuo Chen et al. NATURAL HAZARDS
- Numerical study on seismic response of a rock slope with discontinuities based on the time-frequency joint analysis method
- (2020) Danqing Song et al. SOIL DYNAMICS AND EARTHQUAKE ENGINEERING
- Seismic response analysis of a bedding rock slope based on the time-frequency joint analysis method: a case study from the middle reach of the Jinsha River, China
- (2020) Danqing Song et al. ENGINEERING GEOLOGY
- The 2009 Jiweishan rock avalanche, Wulong, China: deposit characteristics and implications for its fragmentation
- (2019) Ming Zhang et al. Landslides
- Numerical investigation of landslide kinetics for the recent Mabian landslide (Sichuan, China)
- (2019) Jiangbo Wei et al. Landslides
- A unified landslide classification system for loess slopes: A critical review
- (2019) Yanrong Li et al. GEOMORPHOLOGY
- The September 16, 2017, Linjiabang landslide in Wanyuan County, China: preliminary investigation and emergency mitigation
- (2019) Zhuo Chen et al. Landslides
- Triggering mechanism and reactivation probability of loess-mudstone landslides induced by rainfall infiltration: a case study in Qinghai Province, Northwestern China
- (2019) Wenping Mu et al. Environmental Earth Sciences
- Application of alternating decision tree with AdaBoost and bagging ensembles for landslide susceptibility mapping
- (2019) Yanli Wu et al. CATENA
- Distribution and characteristics of landslide in Loess Plateau: A case study in Shaanxi province
- (2018) Jianqi Zhuang et al. ENGINEERING GEOLOGY
- Interaction between landsliding materials and the underlying erodible bed in a loess flowslide
- (2018) Jianbing Peng et al. ENGINEERING GEOLOGY
- Some considerations on the use of numerical methods to simulate past landslides and possible new failures: the case of the recent Xinmo landslide (Sichuan, China)
- (2018) Gianvito Scaringi et al. Landslides
- Seismic stability of a rock slope with discontinuities under rapid water drawdown and earthquakes in large-scale shaking table tests
- (2018) Danqing Song et al. ENGINEERING GEOLOGY
- Three-dimensional geological structures and sliding factors and modes of loess landslides
- (2018) Jianbing Peng et al. Environmental Earth Sciences
- Distribution and genetic types of loess landslides in China
- (2018) Jianbing Peng et al. JOURNAL OF ASIAN EARTH SCIENCES
- The role of seismic triggering in a deep-seated mudstone landslide, China: Historical reconstruction and mechanism analysis
- (2017) Zelin Zhang et al. ENGINEERING GEOLOGY
- Seismic performance of loess-mudstone slope in Tianshui – Centrifuge model tests and numerical analysis
- (2017) Zelin Zhang et al. ENGINEERING GEOLOGY
- Kinetic characteristics of debris flows as exemplified by field investigations and discrete element simulation of the catastrophic Jiweishan rockslide, China
- (2017) Zongxing Zou et al. GEOMORPHOLOGY
- Dynamic response characteristics of a rock slope with discontinuous joints under the combined action of earthquakes and rapid water drawdown
- (2017) Danqing Song et al. Landslides
- Landslides on the Loess Plateau of China: a latest statistics together with a close look
- (2017) Xiang-Zhou Xu et al. NATURAL HAZARDS
- Landslide susceptibility assessment using evidential belief function, certainty factor and frequency ratio model at Baxie River basin, NW China
- (2017) Zhuo Chen et al. Geocarto International
- Seismic performance of loess-mudstone slope by centrifuge tests
- (2016) Zelin Zhang et al. Bulletin of Engineering Geology and the Environment
- Model test on rainfall-induced loess–mudstone interfacial landslides in Qingshuihe, China
- (2016) Chi Li et al. Environmental Earth Sciences
- Heavy rainfall triggered loess–mudstone landslide and subsequent debris flow in Tianshui, China
- (2015) Jianbing Peng et al. ENGINEERING GEOLOGY
- Discrete element modeling of the mass movement and loose material supplying the gully process of a debris avalanche in the Bayi Gully, Southwest China
- (2015) Jia-wen Zhou et al. JOURNAL OF ASIAN EARTH SCIENCES
- Mechanism of formation of wiggly compaction bands in porous sandstone: 2. Numerical simulation using discrete element method
- (2015) Chun Liu et al. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH
- Forecasting landslide hazard by the 3D discrete element method: A case study of the unstable slope in the Lushan hot spring district, central Taiwan
- (2014) Chiao-Yin Lu et al. ENGINEERING GEOLOGY
- Effect of the acceleration component normal to the sliding surface on earthquake-induced landslide triggering
- (2014) Ren-mao Yuan et al. Landslides
- Influence of structure on shear characteristics of the unsaturated loess in Lanzhou, China
- (2013) Bao-Ping Wen et al. ENGINEERING GEOLOGY
- Discrete element modeling of a rainfall-induced flowslide
- (2012) Wei Chao Li et al. ENGINEERING GEOLOGY
- Dissipative contacts and realistic block shapes for modeling rock avalanches
- (2012) Vincent Richefeu et al. ENGINEERING GEOLOGY
- Analytical solutions and numerical tests of elastic and failure behaviors of close-packed lattice for brittle rocks and crystals
- (2012) Chun Liu et al. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH
- Discrete element modeling of the faulting in the sedimentary cover above an active salt diapir
- (2008) Hongwei Yin et al. JOURNAL OF STRUCTURAL GEOLOGY
Become a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get StartedAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started