降雨诱发残积土坡失稳的模型试验

来源 :中国公路学报 | 被引量 : 0次 | 上传用户:csfyl
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
为了研究降雨条件对残积土坡坡体内部变形特征及边坡失稳机理的影响,结合自制监测系统、人工降雨试验及数字照相量测技术,开展不同位置、不同坡度、不同密实度边坡的地质力学模型试验,分析雨水入渗对坡体变形、吸力的影响.指出失稳预警因子应从降雨诱发滑坡失稳机理出发,着重考虑边坡关键位置的力学物理量变化.基于坡体变形和吸力时变规律,提出边坡变形发展的3个阶段;基于不同条件下边坡的失稳破坏过程,揭示降雨诱发残积土坡的失稳模式.试验结果表明:边坡上部土体吸力和变形变化幅度较大,速度较快,而下部土体变化幅度较小,速度较慢;陡坡和高密实度边坡抵抗降雨入渗引起的变形能力强于缓坡和低密实度边坡,由于小孔隙结构发生破坏所需的能量远大于大孔隙结构,导致低密实度、缓坡坡体中部产生的变形大于坡体上部;边坡变形发展阶段为初始蠕变阶段、加速发展阶段、滑动破坏阶段;无支护的边坡,失稳预警因子可选择边坡关键位置处的基质吸力;有支护的边坡,应根据支护结构受力(变形)和边坡关键位置处吸力变化特征来选择预警因子;土坡的失稳模式为坡表冲刷→冲沟、切沟侵蚀→坡脚局部坍塌→破坏范围纵横发展→整体失稳,滑动面深度为1~3 m,该类滑坡应注重坡脚防护,尽可能降低边坡渐进累积破坏的可能性.研究结果可为构建东南沿海地区降雨诱发滑坡预测模型提供重要依据.“,”In order to investigate the influences of rainfall on deformation characteristics and slope instability mechanism of the residual soil slope,a real-time monitoring system,artificial rainfall system and digital photogrammetry technology were used to conduct a geo-mechanical modeling test under the different location,different slope angles,different density and different rainfall conditions.Then the influence of rainfall infiltration on body displacement and matric suction was observed.Instability risk factor should be considered from the perspective of instability mechanism of landslide induced by rainfall.The variation of the physical quantity of slope should be paid much attention.Three development phases of slope deformation were proposed on the basis of slope deformation and the changing law of matric suction with time.Meanwhile,by dint of instability failure processes under the different conditions,the rainfall-induced residual soil slope failure mode was revealed.The results show that matric suction and body deformation of slope upper part change greatly,and the speed is fast.However,slope lower part soil change slightly with low speed.Compared with the gentle slope with low density,the anti-deformability of the rainfall infiltration in the steep slope with high density is stronger.As the energy required for the small pore structure destruction is much larger than that of the large pore structure,the deformation in the middle part of the gentle slope with low density is larger than that of the upper part of the slope.Considering the law of soil suction,time variation and body deformation,three stages of slope deformation development are put forward,namely,the initial creep stage,accelerated development stage and sliding failure stage.Meanwhile,the slope instability warning factor should be selected from the instability mechanism of rainfall-induced landslides.Besides,the matric suction of slope key position could be selected as the slope instability warning factor for unsupported slope,whilst the change characteristics of matric suction and supporting structure stresses (deformation) should be considered together as the instability warning factor selection for supported slope.Based on the failure process of the soil slope subjected to rainfall infiltration,the failure mode is observed.It starts from slope surface scouring,and gradually develops into gully erosion.Subsequently,the local failure at the slope toe occurs,and the damage scope extends vertically and horizontally and finishes with a global shallow landslide.The depth of slip surface is 1 to 3m,and this kind of landslide should focus on the slope protection to reduce possibility of slope progressive failure as much as possible.The results provide the reference for constructing a prediction model of landslides induced by rainfall in the southeast coastal areas.
其他文献
俗话说,基础不牢,地动山摇。2008年发生在四川汶川的大地震,让许多城市建筑在一瞬间变成一片废墟,使许多人从身体上、心理上收到巨大的伤害,国家财产损失巨大。
硬脑膜是位于脑组织表面起到保护脑组织作用的厚巨坚韧的双层膜性结构,颅内肿瘤侵蚀、手术、创伤等因素均可造成硬脑膜缺损,此时往往需要采用硬膜修补术来预防脑脊液漏、颅内
建筑结构设计中的概念设计是设计师想象力和创造力的集中体现,具有计算机程序设计无法达到的高度和价值。本文介绍了概念设计在建筑结构设计中的重要作用,分析了建筑结构设计中
随着经济的增长和人们收入水平不断的提高,大部分人对房屋的要求也逐步在提高。而在现代住宅建筑中,人们所要的不仅仅只是居住,更多的是享受家的温暖和对生活的享受。并且随着我
期刊
木糖氧化无色杆菌广泛存在于自然及医院环境中,是少见的社区和医院获得性病原菌,近年来逐渐被认为是肺囊性纤维化、免疫系统受损以及患有慢性基础疾病患者的常见致病菌,并可
随着社会经济的快速发展,城市化水平不断提高,交通流量不断增长,路面结构破坏及交通阻塞状况愈演愈烈。旧路改造是改善道路交通条件、构建和谐社会的一个重要措施。出现了各种各
本文针对一种大型原料气吸收塔现场吊装组对、吊装、冬季施焊等现场施工难点,从施工房的制作、焊接工艺、吊装工艺、竣工检验等方面进行了分析和阐述,提出了较为切实可行的工
建筑行业随着我国经济的繁荣昌盛迎来了发展高峰,设计建筑场地是建筑中最重要的一环,应该得到重视。在建筑场地的设计中,设计虽然是工程技术层面问题,但也要考虑很多因素,如:社会因
原发性胃肠道淋巴瘤(PGIL)是指原发于胃肠道黏膜内淋巴组织的恶性肿瘤。其约占结外恶性淋巴瘤的30%~40%,占非霍奇金淋巴瘤(NHL)的10%~15%[1]。PGIL主要发生于胃,占55%~65%;发生于小