Characteristics and Cause Analysis of Freeze-Thaw Landslide on Western Sichuan Plateau

LI Peng-yue; TIE Yong-bo; WANG Dong-hui; TANG Ye-qi

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Characteristics and Cause Analysis of Freeze-Thaw Landslide on Western Sichuan Plateau

- Characteristics and Cause Analysis of Freeze-Thaw Landslide on Western Sichuan Plateau
- Bulletin of Soiland Water Conservation Vol. 33, Issue 1, Pages: 173-177(2014)
- 作者机构：
  
  成都地质矿产研究所,四川,成都,610081
- 作者简介：
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- Published：2014
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LI Peng-yue, TIE Yong-bo, WANG Dong-hui, et al. Characteristics and Cause Analysis of Freeze-Thaw Landslide on Western Sichuan Plateau[J]. Bulletin of Soiland Water Conservation, 2014, 33(1): 173-177.
DOI：

LI Peng-yue, TIE Yong-bo, WANG Dong-hui, et al. Characteristics and Cause Analysis of Freeze-Thaw Landslide on Western Sichuan Plateau[J]. Bulletin of Soiland Water Conservation, 2014, 33(1): 173-177. DOI：

摘要

对于川西高原这类特殊环境下发育的滑坡

因其发生前无明显的滑动迹象

滑坡隐蔽性强

其危害性极大。这类滑坡在无地震和降雨作用情况下

因冻融作用使得上部岩体突然溃滑

继而转化为碎屑流

并沿途携卷铲刮坡体表层松散物质而产生高速运动

表现出与一般重力条件下滑坡不同的运动和堆积特征。以四川省德格县中扎科乡赵玛滑坡为例

对其发育特征及失稳过程进行了论述。根据滑坡的分区及动力学特征

将其失稳过程概括为孕育阶段

高速运动-碎屑化阶段和堆积阶段。结果表明

赵玛滑坡的运动速度最大可达75 m/s

强烈的冻融作用以及滑坡区特有的地质构造是引起该滑坡高速远程运动的根本原因。研究结果可为川西高原因冻融过程诱发的滑坡灾害的防灾减灾提供理论依据。

Abstract

Landslide developed under the unique environment of Western Sichuan Plateau is characterized by strong concealment and hence is a kind of extremely serious disaster because of its less evident sliding indication before occurrence. This kind of landslide often occurs suddenly due to freeze-thaw action

even in the absence of earthquake and rainfall

and then is transformed into debris flow. During its high speed movement

the landslide is capable of transporting and stripping loose materials on slope and therefore shows some movement and accumulation characteristics differing from common landslide by gravity. By taking the Zhaoma landslide in Zhongzhake Town

Dege County

for an example

development characteristics and failure process of the landslide are analyzed. According to the division and dynamic characteristics of landslide

its failure process is generalized as the three stages of gestation

high-speed movement and debris flow

and accumulation. Results show that the maximum movement speed of the Zhaoma landslide is as high as 75 m/s and intensive freeze-thaw action and the unique geological structure of the study area are the primary causes for its high-speed remote movement. Result from the study may provide a theoretical base for prevention and reduction of the landslide disaster induced by freeze-thaw action on the Western Sichuan Plateau.

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references

程谦恭,张倬元,黄润秋.高速远程崩滑动力学的研究现状及发展趋势[J].山地学报,2007,25(1):72-84.

张明,殷跃平,吴树仁,等.高速远程滑坡-碎屑流运动机理研究发展现状与展望[J].工程地质学报,2010,18(6):805-817.

苟富刚,王运生,吴俊峰,等.都江堰庙坝地震高位滑坡特征与成因机理研究[J].工程地质学报,2012,20(1):21-29.

许强,董秀军,邓茂林,等.2010年"7·27"四川汉源二蛮山滑坡-碎屑流特征与成因机理研究[J].工程地质学报,2010,18(5):609-622.

黄润秋.汶川8·0级地震触发崩滑灾害机制及其地质力学模式[J].岩石力学与工程学报,2009,28(6):1239-1249.

赵宇,崔鹏,王成华,等,重庆万盛煤矸石自然爆炸型滑坡碎屑流成因探讨[J].山地学报,2005,23(2):169-173.

程谦恭,王玉峰,朱圻,等.高速远程滑坡超前冲击气浪动力学机理[J].山地学报,2011,29(1):70-80.

汤明高,许强,张伟,等.汶川地震触发窝前滑坡特征及失稳机制探讨[J].岩石力学与工程学报,2011,30(2):3491-3502.

Strom A. Morphology and internal structure of rockslides and rock avalanches grounds and constraints for their modeling[M]//Landslides from Massive Rock Slope Failure, 2006:305-326.

Hewitt K. Catastrophic landslide deposits in the Karakoram Himalaya[J].Science, 1988,242(4875):64-67.

Yarnold J C. Rock-avalanche characteristics in dry climates and the effect of flow into lakes:Insights from mid-Tertiary sedimentary breccias near Artillery Peak, Arizona[J].Geological Society of America Bulletin,1993,105(3):345-360.

Scheidegger A E. On the prediction of the reaching and velocity of catastrophic landslides[J].Rock Mechanics, 1973,5(4):231-236.

陈天城,魏炳乾.冻结融解作用对岩石边坡稳定的影响[J].西北水力水电,2003,19(3):5-8.

徐光苗,刘泉声.岩石冻融破坏机理分析及冻融力学实验研究[J].岩石力学与工程学报,2005,24(17):3076-3082.

荆继红,韩双平,王新忠,等.冻结-冻融过程中水分运移机理[J].地球学报,2007,28(1):50-54.

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