Unified two-phase nonlocal formulation for vibration of functionally graded beams resting on nonlocal viscoelastic Winkler-Pasternak foundation

A nonlocal study of the vibration responses of functionally graded(FG)beams supported by a viscoelastic Winkler-Pasternak foundation is presented.The damping responses of both the Winkler and Pasternak layers of the foundation are considered in the formulation,which were not considered in most literature on this subject,and the bending deformation of the beams and the elastic and damping responses of the foundation as nonlocal by uniting the equivalently differential formulation of well-posed strain-driven(ε-D)and stress-driven(σ-D)two-phase local/nonlocal integral models with constitutive constraints are comprehensively considered,which can address both the stiffness softening and toughing effects due to scale reduction.The generalized differential quadrature method(GDQM)is used to solve the complex eigenvalue problem.After verifying the solution procedure,a series of benchmark results for the vibration frequency of different bounded FG beams supported by the foundation are obtained.Subsequently,the effects of the nonlocality of the foundation on the undamped/damping vibration frequency of the beams are examined.

Free vibration and buckling analysis of polymeric composite beams reinforced by functionally graded bamboo fbers

Natural fibers have been extensively researched as reinforcement materials in polymers on account of their environmental and economic advantages in comparison with synthetic fibers in the recent years.Bamboo fibers are renowned for their good mechanical properties,abundance,and short cycle growth.As beams are one of the fundamental structural components and are susceptible to mechanical loads in engineering applications,this paper performs a study on the free vibration and buckling responses of bamboo fiber reinforced composite(BFRC)beams on the elastic foundation.Three different functionally graded(FG)layouts and a uniform one are the considered distributions for unidirectional long bamboo fibers across the thickness.The elastic properties of the composite are determined with the law of mixture.Employing Hamilton’s principle,the governing equations of motion are obtained.The generalized differential quadrature method(GDQM)is then applied to the equations to obtain the results.The achieved outcomes exhibit that the natural frequency and buckling load values vary as the fiber volume fractions and distributions,elastic foundation stiffness values,and boundary conditions(BCs)and slenderness ratio of the beam change.Furthermore,a comparative study is conducted between the derived analysis outcomes for BFRC and homogenous polymer beams to examine the effectiveness of bamboo fibers as reinforcement materials,demonstrating the significant enhancements in both vibration and buckling responses,with the exception of natural frequencies for cantilever beams on the Pasternak foundation with the FG-◇fiber distribution.Eventually,the obtained analysis results of BFRC beams are also compared with those for carbon nanotube reinforced composite(CNTRC)beams found in the literature,indicating that the buckling loads and natural frequencies of BFRC beams are lower than those of CNTRC beams.

GENERAL SOLUTION FOR DYNAMICAL PROBLEM OF INFINITE BEAM ON AN ELASTIC FOUNDATION

Based on the theory of Eider-Bernoulli beam and Winkler assumption for elastic foundation, a mathematical model is presented. By using Fourier transformation for space variable, Laplace transformation for time variable and convolution theorem for their inverse transformations, a general solution for dynamical problem of infinite beam on an elastic foundation is obtained. Finally, the cases of free vibration,impulsive response and moving load are also discussed.

桩撑式支护基坑通用弹性地基梁分析法

弹性地基梁法常用于模拟分析桩撑(锚)式支护基坑在开挖、设撑等施工工况中变形和受力的变化。目前利用该方法对某工况基坑分析时,首先要将整个支护桩在支撑处划分为若干个桩段,然后利用相邻桩段交界处的位移连续条件和受力平衡条件,推导出相应的待定参数方程,之后再利用求出的待定参数分析支护体系(基坑)的变形和受力。由于不同施工工况对应的支撑数和桩段数不同,因此该方法必须根据不同工况重新推导各自的参数方程,从而导致计算过程繁杂,难以形成通用计算公式和方法,也不易编程等问题。通过将支撑与桩段归纳为3种基本连接形式(即支撑分别相连于桩顶、相邻两桩段之间和坑底),本文建立了相邻两个桩段间待定参数的递推公式,进而推导出了适用于内支撑和锚索支撑形式、任意支撑道数、开挖或设撑工况的通用待定参数方程。该方程仅含4个参数,远少于现有方法且易于求解。文中算例结果验证了本文方法的合理性和可行性。

T形地连墙码头结构计算

针对T形地连墙结构受力影响因素复杂的问题,结合工程实例,利用STAAD软件采用竖向弹性地基梁法对码头结构进行分析。研究不同模型单元划分精度、地连墙入土深度以及回填料m值选取对地连墙结构内力的影响,结果表明:随模型单元划分精度的提高,地连墙结构海侧弯矩增大,陆侧弯矩减小,锚碇墙结构弯矩变化规律与之相反,最终两者内力趋于稳定;在踢脚稳定的前提下,随地连墙底端入土深度的增加,墙体结构海侧弯矩减小、陆侧弯矩增大、位移减小;随m取值变大,锚碇墙海侧弯矩增大、陆侧弯矩减小,且敏感度较高。研究结论可为T形地连墙码头结构的设计提供参考。

基于能量法的隧道穿越引起既有管线变形研究

针对隧道穿越引起既有管线变形的问题,本文出发点并非沿用力学平衡,而是从系统能量入手。将既有管线视为Euler-Bernoulli梁,并搁置于可考虑地基连续变形的Pasternak地基上。参考Rayleigh-Ritz法给出位移函数,写出地基梁系统各部分的功能表达式,建立关于管线变形的总势能方程。依据最小势能原理对其进行变分运算并求解,推导得到计算管线变形的理论解析。分别利用有限元软件的模拟结果和已发表文献中实际工程的监测数据验证所提方法的合理性。进一步对既有管线抗弯刚度、新旧结构穿越角度以及地层损失率展开参数分析。研究结果表明,随着既有管线抗弯刚度和新旧结构穿越角度的增大,既有管线的变形减小;而随着地层损失率的增大,既有管线的变形也随之增大。所提方法可快速评估隧道开挖对既有管线的影响。

非对称荷载下基坑支护结构变形计算方法

文章针对非对称受荷基坑的位移特点,基于弹性地基梁模型,以支撑轴力联系两侧墙体,提出非对称受荷基坑的整体计算模型。通过有限宽度土体的土压力求解公式计算,引入墙土摩擦角和土体内摩擦角随墙体位移的发挥公式,考虑墙体变形与坑外主动土压力的耦合作用。根据非对称受荷计算模型,得到了非对称受荷下支护结构变形控制方程,最后结合实际工程验证了算法。

考虑水线面变化影响的带式浮桥计算方法

带式浮桥吃水变化会引起浮桥水线面的变化,导致浮桥的弹性基础刚度也随之变化,现有的基于弹性基础等刚度假定的计算方法存在较大的误差。为提高带式浮桥结构的计算精度,建立了考虑弹性基础刚度变化的带式浮桥结构计算方法。该方法将浮桥计算模型分成多段进行理论建模和求解,可得到浮桥的垂向位移、桥面坡度、桥跨弯矩和剪力等参数。与传统方法相比,该方法计算结果更为精确。结合具体案例,对比分析了选用不同水线面的计算结果。结果表明,在不同荷载的作用下,平均水线面法与分段法之间的误差最小,分段法计算过程较为复杂,在计算精度要求不高时,也可采用平均水线面法对带式浮桥进行计算分析。

Semi-analytical approach for free vibration analysis of cracked beams resting on two-parameter elastic foundation with elastically restrained ends

In present study, free vibration of cracked beams resting on two-parameter elastic foundation with elastically restrained ends is considered. Euler-Bemoulli beam hypothesis has been applied and translational and rotational elastic springs in each end considered as support. The crack is modeled as a mass-less rotational spring which divides beam into two segments. After governing the equations of motion, the differential transform method （DTM） has been served to determine dimensionless frequencies and normalized mode shapes. DTM is a semi-analytical approach based on Taylor expansion series that converts differential equations to recursive algebraic equations. The DTM results for the natural frequencies in special cases are in very good agreement with results reported by well-known references. Also, the DTM procedure yields rapid convergence beside high accuracy without any frequency missing. Comprehensive studies to analyze the effects of crack location, crack severity, parameters of elastic foundation and boundary conditions on dimensionless frequencies as well as effects of elastic boundary conditions on cracked beams mode shapes are carried out and some problems handled for first time in this paper. Since this paper deals with general problem, the derived formulation has capability for analyzing free vibration of cracked beam with every boundary condition.

考虑围护结构变形和桩顶荷载的基坑旁侧桩基变形计算

归纳了4种典型基坑围护结构变形模式下的基坑侧壁变形曲线计算方法,基于应力释放法,提出了一种考虑围护结构变形模式以及桩顶竖向荷载的邻近基坑单桩水平位移计算方法。分析了围护结构累计变形相同情况下,不同变形模式引起的邻近单桩水平位移规律,同时进行了2个案例验证与影响因素分析。研究结果表明:在基坑围护结构最大变形相同情况下,悬臂型变形模式引起的邻近单桩最大水平位移最大,其次是复合型,再次是内凸型,踢脚型则最小;桩体最大水平位移与基坑围护结构控制参数虽然呈正相关规律,但是随着与围护结构水平距离的增加而呈非线性递减;作用在桩体上的附加应力增大时,桩体水平位移曲线逐渐从“悬臂”形向“鱼腹”形发展。虽然桩顶荷载对桩体水平位移有一定的影响,但是影响较小。

弹性地基梁板的径向基函数逼近求解方法

基于Winkler模型对弹性地基梁和弹性地基板的挠度求解提出了一种新方法。利用加权余量法中的配点法结合径向基函数逼近得到挠度近似解,该方法无需划分网格且无需积分是未知数与方程数目一一对应的强形式解法。数值实验表明:该近似解结果与理论解基本吻合,计算效果与杂交边界法相当,优于滑动最小二乘法;此外,根据边界条件可赋予附加未知量物理意义,将部分特征矩阵构造成单位阵从而降低了待求方程组的求解难度,减小误差,为特征矩阵附加行的编写提供了新思路。

考虑层间滑移的水泥混凝土路面结构力学响应分析

为快速分析水泥混凝土路面结构响应特性,将路面结构简化为Winkler地基上的双层欧拉直梁,基于Euler-Bernoulli梁理论和状态空间方法,提出了一种考虑层间界面剪切滑移效应的水泥混凝土路面结构力学响应的解析计算方法.通过与有限元数值计算的结果对比,验证了该解析计算方法的正确性,并揭示了不同路面结构长度与层间剪切刚度影响下水泥混凝土路面结构变形响应的变化规律,以及荷载大小对界面处剪切力集度的影响规律.结果表明:计算时选用不同的路面结构长度对变形响应具有显著影响,建议长度不宜小于10 m;层间界面的剪切滑移效应会显著地影响水泥混凝土路面结构的竖直位移与弯曲变形,且该影响会随着荷载的增加而愈加显著,层间界面的接触效应不容忽略;增大层间剪切刚度能够有效地减小荷载对水泥混凝土路面结构变形响应的影响.

考虑摩阻力和轴向荷载影响的边坡锚固框架简化有限元计算

目前,边坡锚固框架常被等同于平地上的十字交叉地基梁,视为仅受交叉结点处锚杆拉力在框架轴线的垂向分量的平面弯曲变形构件,按Winkler弹性地基梁法计算其内力,没有考虑在框架底土摩阻力和框架轴向荷载影响下,其实则为拉压与弯曲或斜弯曲组合变形构件,导致现行计算结果与实际存在偏差。为此,以某黄土路堑边坡为例,采用经平板载荷试验数值验证的室内外试验土工参数,首次建立考虑摩阻力和轴向荷载影响并将锚杆作用按等效力简化的边坡锚固框架内力计算有限元方法。同时,由黄土的变形模量换算出Winkler法对应杆系有限元模型参数,按现行算法分别建立平地框架实体与杆系有限元模型以分析Winkler法存在的问题及其结果与相应边坡框架模型简化有限元计算的差异。结果表明:平地模型Winkler法与相应实体有限元法所得框架竖肋弯矩图很相似,但前者弯矩最大值较后者偏大,二者横梁弯矩差别较大;将边坡上组合变形的框架等同于平地上平面弯曲框架所得内力与实际会存在很大偏差。

带纵向加强肋复合墙体轴心受压荷载分配规律研究

针对带纵向加强肋复合墙体轴心受压下荷载在各承力部件间的分配问题,采用静力竖向承载力试验方法,对三榀1/2比例带纵向加强肋复合墙体进行试验研究,以弹性地基梁理论为基础,提出墙体在竖向荷载作用下的简化力学模型,计算墙体各承力部件承担竖向荷载比例,并与试验结果对比,分析墙体各承力部件的荷载分配规律。结果表明:所建立的墙体简化力学模型合理可行,竖向荷载在墙体各部件中按照轴向刚度进行分配,加载过程中各部件所承担的荷载比例基本不变,边框柱承担大部分竖向荷载,开洞增加了边框柱承担荷载的比例。

考虑墙体位移与土压力耦合的侧向位移计算方法

选取柔性挡墙典型位移曲线为研究对象,将土体看作是一系列弹簧和理想刚塑体的组合体,引入非线性土弹簧模型,建立土压力与围护结构水平位移的耦合关系,并将其与弹性地基梁法结合.采用有限差分法求解基坑开挖随土压力改变引起的围护结构水平位移,对不同工况下土压力及地下连续墙侧向位移与现场实测值进行对比.结果表明:计算值与现场实测值随墙高方向及位移大小的变化规律基本一致;随着基坑开挖深度的增加,地下连续墙的水平位移曲线会逐渐变成鼓型曲线.

超长异形深基坑施工对紧邻运营线路水平位移影响分析

以滨海快线福州火车站基坑工程为背景,对紧邻既有隧道水平位移的实测数据展开细致分析,并结合弹性地基梁理论,探讨超长异形深基坑分坑施工对紧邻既有隧道水平位移的影响规律。实测结果表明:随着基坑的开挖卸荷,既有隧道整体发生朝向基坑侧的水平位移,水平位移曲线呈现多峰形态,且各峰值均大致位于各分坑的中部。同时,受到既有隧道平面线形影响,分坑施工过程中,其水平位移曲线出现局部反弹效应。进一步地,将隧道简化为搁置于Winkler弹性地基梁上的Timoshenko梁,通过两阶段分析法计算既有隧道水平位移的近似理论解,与现场实测水平位移的变化规律基本吻合,但量值上略小于实测值。

既有管线下盾构施工地层沉降监测和位移加载数值分析

针对深圳地铁下穿电缆隧道的实例,通过采用位移加载法模拟隧道开挖效应和弹性地基梁理论分析管土相互作用,提出将地铁上方的既有隧道视为大管径管线考虑,分析了地铁左线施工引起的地层响应,并借助相关控制标准对电缆隧道的安全性作出评价,分析结果表明:数值计算结果与实测数据吻合较好,电缆隧道也处于安全状态,可为相关类似工程研究提供借鉴。

基于p-y曲线分析隧道开挖对邻近单桩的影响

在分析隧道开挖对邻近单桩的影响时,基于Winkler地基梁模型的简化方法很难合理确定不同桩土刚度及地层位移条件下土体的等效参数。基于桩土界面非线性p–y曲线,提出了一种分析隧道开挖下邻近单桩响应的修正简化算法,结合有限差分原理,给出了非线性方程组的迭代法及增量法求解过程,同时将本文方法与既有研究成果进行了对比验证,并就相关问题进行了探讨。研究结果表明:在进行隧道开挖条件下邻近被动桩分析时,考虑桩土界面非线性特性是必要的,尤其是竖向;随着桩长增加,桩身在竖直方向上呈现出三种不同的受力性状;在cu/E p不变的情况下,桩身弯矩随着cu增加呈线性增长。

基于支撑内力和支护桩位移实测量的m值反演

在深基坑支护设计中,利用弹性地基梁m法计算结构内力和变形应用广泛。m取值是否合理、准确直接影响计算结果。结合郑州地区地铁车站工程案例,布设钢支撑轴力和支护桩水平位移(测斜法)监测点位,在不同开挖工况下按一定周期实测支护结构内力和变形,并根据静力平衡条件反演出基坑开挖面以上不同土层的m值。然后,用反演m值计算后续工段变形,其结果更接近实测变形值。反演得到的m值丰富地区经验,提高设计效益。

圆形基坑地下连续墙分析方法研究

上海世博500kV地下变电站基坑开挖深度34m,圆形地下连续墙直径130m。采用3种计算方法对地下连续墙变形及内力进行对比分析。平面弹性地基梁法忽略了圆形围护结构的拱效应,不利于对圆形地下连续墙受力的全面认识与设计安全。三维弹性地基板法计算原理基于平面弹性地基梁法,且计算模型可以反映圆形围护结构的空间效应。三维连续介质有限元法考虑围护结构与土体的共同作用,得到的地墙变形与内力相比三维弹性地基板法均更小。与监测数据的比较表明,地墙的实际变形介于三维弹性地基板法与三维连续介质有限元法分析结果之间,且更接近于三维弹性地基板法。圆形基坑地下连续墙应采用三维弹性地基板法进行设计计算。