基于PFC3D的地下连续墙槽壁稳定性模拟分析
投稿时间:2022-07-02  修订日期:2022-10-18  点此下载全文
引用本文:何烨,周昌军,何鑫,等.基于PFC3D的地下连续墙槽壁稳定性模拟分析[J].钻探工程,2023,50(3):152-158.
HE Ye,ZHOU Changjun,HE Xin,et al. Trench wall stability simulation for the diaphragm wall based on PFC3D[J]. Drilling Engineering, 2023,50(3):152-158.
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作者单位E-mail
何烨 中国水利水电第七工程局成都水电建设工程有限公司四川 成都 611130 283604487@qq.com 
周昌军 中国水利水电第七工程局成都水电建设工程有限公司四川 成都 611130  
何鑫 成都理工大学地质灾害防治与地质环境保护国家重点实验室四川 成都 610059  
王胜* 成都理工大学地质灾害防治与地质环境保护国家重点实验室四川 成都 610059 yongyuandewangsheng@sina.com 
解程超 成都理工大学地质灾害防治与地质环境保护国家重点实验室四川 成都 610059  
唐庆东 中国水利水电第七工程局成都水电建设工程有限公司四川 成都 611130  
李守信 中国水利水电第七工程局成都水电建设工程有限公司四川 成都 611130  
中文摘要:针对富水砂卵石层地下连续墙成槽过程中槽壁易发生失稳的问题,通过分析相关的研究资料,在明确失稳形式及机理的基础上,设计了改变流速和粒径比的两种模拟试验方案,采用PFC3D颗粒流软件分析了渗流对土颗粒间性质变化的影响。数值模拟结果表明:流速对于颗粒的位移有很大的影响。流速越快,颗粒位移越大,孔隙率越高,墙体所受应力也越大;粒径比对于颗粒的位移同样有很大影响,其表现的作用与流速相似;在有侧限的情况下,颗粒的x向位移在达到极限后会产生z向的分量,使得颗粒向上位移。在实际工程中就意味着在颗粒位移达到一定程度,必然会突破泥膜,导致土体内细颗粒的流失,土体孔隙率增大,最终使得槽壁发生垮塌。
中文关键词:PFC3D  富水砂卵石层  槽壁稳定性  数值模拟  地下连续墙
 
Trench wall stability simulation for the diaphragm wall based on PFC3D
Abstract:In view of the problem that the trench wall for the diaphragm wall is prone to failure in the process of trench-digging in water rich sand pebble formation, two simulation test schemes are designed with either change of the flow velocity or the particle size ratio by analyzing the relevant research data and on the basis of defining the failure form and mechanism. The numerical simulation results show that the flow velocity has a great influence on the displacement of particles. The faster the flow velocity, the greater the particle displacement, the higher the porosity, and the greater the stress on the wall. The particle size ratio also has a great influence on the displacement of particles, and its effect is similar to that of flow velocity. When there is a lateral limit, the x-direction displacement of the particles will produce a z-direction component after reaching the limit, making the particles move upward. In practical works, it means that when the particle displacement reaches a certain degree, it will inevitably break through the mud film, resulting in the loss of fine particles in the soil, the increase of soil porosity, and finally the collapse of the trench wall.
keywords:PFC3D  water rich sand pebble layer  trench wall failure  numerical simulation  diaphragm wall
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