岩土力学
巖土力學
암토역학
ROCK AND SOIL MECHANICS
2013年
3期
621-630
,共10页
王奎华%吕述晖%吴文兵%罗永健%武登辉
王奎華%呂述暉%吳文兵%囉永健%武登輝
왕규화%려술휘%오문병%라영건%무등휘
单桩沉降特性%虚土桩模型%荷载传递法%应力扩散%桩端沉渣%软弱下卧层
單樁沉降特性%虛土樁模型%荷載傳遞法%應力擴散%樁耑沉渣%軟弱下臥層
단장침강특성%허토장모형%하재전체법%응력확산%장단침사%연약하와층
settlement characteristics of single pile%virtual soil-pile model%load transfer method%stress dispersion%pile bottom sediment%soft substratum
基于虚土桩模型,分析了层状地基中桩端土性对单桩沉降特性的影响.首先,以虚土桩扩散角反映桩端土层应力扩散效应,将桩端一定锥角范围内由桩端至基岩面的土体视为虚土桩,并根据其变截面特性,将虚土桩沿纵向划分为有限个微元段.然后,对桩及虚土桩桩侧土体采用理想弹塑性荷载传递模型,利用荷载传递法,推导了层状地基中以桩侧土塑性发展深度为变量的单桩荷载-沉降递推计算方法,并进一步得到了桩身轴力及桩侧摩阻力递推计算式.在此基础上,给出了荷载传递模型参数选取方法,并分析了虚土桩临界深度的影响因素及由实测荷载-沉降曲线反演虚土桩扩散角的可行性.最后,利用该方法分析了桩端沉渣和软弱下卧层对荷载-沉降曲线的影响.结果表明,考虑桩端土层应力扩散效应时,通过计算得到的桩顶及桩端荷载-沉降曲线与实测曲线吻合较好;当桩端存在沉渣或软弱下卧层时,采用虚土桩模型的单桩沉降计算方法可以在一定程度上反映沉渣特性及软弱下卧层埋深等因素对桩顶荷载-沉降曲线的影响.
基于虛土樁模型,分析瞭層狀地基中樁耑土性對單樁沉降特性的影響.首先,以虛土樁擴散角反映樁耑土層應力擴散效應,將樁耑一定錐角範圍內由樁耑至基巖麵的土體視為虛土樁,併根據其變截麵特性,將虛土樁沿縱嚮劃分為有限箇微元段.然後,對樁及虛土樁樁側土體採用理想彈塑性荷載傳遞模型,利用荷載傳遞法,推導瞭層狀地基中以樁側土塑性髮展深度為變量的單樁荷載-沉降遞推計算方法,併進一步得到瞭樁身軸力及樁側摩阻力遞推計算式.在此基礎上,給齣瞭荷載傳遞模型參數選取方法,併分析瞭虛土樁臨界深度的影響因素及由實測荷載-沉降麯線反縯虛土樁擴散角的可行性.最後,利用該方法分析瞭樁耑沉渣和軟弱下臥層對荷載-沉降麯線的影響.結果錶明,攷慮樁耑土層應力擴散效應時,通過計算得到的樁頂及樁耑荷載-沉降麯線與實測麯線吻閤較好;噹樁耑存在沉渣或軟弱下臥層時,採用虛土樁模型的單樁沉降計算方法可以在一定程度上反映沉渣特性及軟弱下臥層埋深等因素對樁頂荷載-沉降麯線的影響.
기우허토장모형,분석료층상지기중장단토성대단장침강특성적영향.수선,이허토장확산각반영장단토층응력확산효응,장장단일정추각범위내유장단지기암면적토체시위허토장,병근거기변절면특성,장허토장연종향화분위유한개미원단.연후,대장급허토장장측토체채용이상탄소성하재전체모형,이용하재전체법,추도료층상지기중이장측토소성발전심도위변량적단장하재-침강체추계산방법,병진일보득도료장신축력급장측마조력체추계산식.재차기출상,급출료하재전체모형삼수선취방법,병분석료허토장림계심도적영향인소급유실측하재-침강곡선반연허토장확산각적가행성.최후,이용해방법분석료장단침사화연약하와층대하재-침강곡선적영향.결과표명,고필장단토층응력확산효응시,통과계산득도적장정급장단하재-침강곡선여실측곡선문합교호;당장단존재침사혹연약하와층시,채용허토장모형적단장침강계산방법가이재일정정도상반영침사특성급연약하와층매심등인소대장정하재-침강곡선적영향.
Based on virtual soil-pile model, the influence analysis of pile tip soil properties on single pile settlement is conducted in terms of layered soils. Firstly, considering stress dispersion in soil medium, the soil between pile tip and bedrock surface is assumed to be virtual soil-pile. Furthermore, the virtual soil-pile with variable cross-section is divided into finite segments. Then, the surrounding soil layers of pile is modeled as ideal elastoplastic transfer model;and regarding the developmental plastic depth as an independent variable, a recursive method for calculating axial force and side friction of pile in layered soil is derived by load transfer method. On this basis, parameters selection of load transfer model is studied;meanwhile, the factors of virtual soil-pile length and the feasibility of acquiring stress dispersion angle through inversion analysis are analyzed. Finally, by means of the presented method, the difference of load-displacement curves has been examined when pile bottom sediment and soft substratum exist. The results show that:the calculated load-displacement curves of pile tip and pile top agree well with the measured curves considering stress dispersion of pile tip soil;the presented method can take the influences of pile bottom sediment and soft substratum on load-displacement curves into consideration.
