基于性能的拱形抗滑桩墙支护结构体系优化设计的思考

以提供明确性能的滑坡锚碇拱形抗滑桩墙支护结构体系全局优化设计方案为目的,利用先进的基于性能的结构优化设计理念、计算机信息处理技术和智能决策技术,研究锚碇拱形抗滑桩墙支护结构的空间合理布置对结构体系受力的影响、锚碇拱形抗滑桩墙支护结构体系的数值计算方法和优化模型,探索锚碇拱形抗滑桩墙支护结构体系失效损失的评估方法和评估模型,开发基于性能的锚碇拱形抗滑桩墙支护结构体系全局优化设计软件,为滑坡治理提供明确的安全、经济、性能等参数的全局最优支护方案。对解决当前滑坡治理方案中受力体系的选择与布置、工程治理中的资源浪费和财产损失及延长使用等问题具有积极作用,是滑坡治理方面一项既有理论意义又极具应用前景的工作。     

排桩冻结法深基坑施工监测与反馈分析

对于润扬大桥南锚碇排桩冻结法深大基坑,冻结作用使基坑的受力过程变得更为复杂,根据排桩冻结法基坑结构和场地工程地质条件,建立了大型安全监测系统。本文介绍了润扬大桥南锚碇场地工程地质条件、排桩冻结法基坑的结构和南锚碇基坑监测方案、分析了南锚排桩冻结法深基坑各项监测数据的变化规律,包括侧向土压力、内支撑轴力、排桩钢筋应力和排桩水平位移随时间变化规律,并基于施工监测进行了反馈分析,保障了南锚碇排桩冻结法深基坑的安全与稳定。监测结果分析表明,排桩冻结法是基坑工程的一种可行的施工工法,润扬大桥南锚碇排桩冻结法深大基坑的成功实践为今后类似工程的建设积累了宝贵经验。     

气相爆轰波传播过程中的自点火效应

基于基元反应模型和单步反应模型,对直管道中H₂-air混合气体中爆轰波的传播过程进行了数值模拟,揭示了气相爆轰波传播过程中的自点火效应。利用数值模拟方法计算了不同爆轰模型的点火延迟时间,并得到了爆轰波三波点的传播过程以及所形成胞格结构的尺寸。结果表明,胞格宽度与点火延迟时间成正比;爆轰波诱导区内气体的点火延迟时间与三波点的运动周期基本一致。进一步对结果分析可知,爆轰波的自维持传播取决于点火延迟时间(表征化学反应的特征时间)和三波点的运动周期(表征流动的特征时间)的匹配;当二者相匹配时,经过前导激波压缩后形成的高温高压爆轰气体,在短时间内实现了自点火,同时释放出大量的能量推动了爆轰波的前进,即爆轰波的稳定自维持传播依靠其自点火机制。     

砂土中螺旋锚基础水平振动特性的模型试验研究

在水平激励作用下,钢管螺旋锚基础-土的动力相互作用具有明显的非线性特性。基于自制的锚土动力相互作用模型试验系统,对砂土中不同锚体几何结构的钢管螺旋锚的水平振动响应特性进行了研究,具体分析了螺旋锚长径比(L/D)、叶片距宽比(S/D0)、叶片外伸比(D0/D)、不同荷载幅值(F0)和振动频率(f)等对螺旋锚水平动力响应特性的影响,并与直桩进行了对比分析。通过研究螺旋锚周围土体的应力扩散,讨论了水平动力荷载作用下螺旋锚-土的相互作用规律。研究结果表明:长径比(L/D)是影响直桩和螺旋锚水平动力响应特性的重要因素;在锚径相同的条件下,锚土系统的共振频率随锚体长径比的增加而减小,随叶片外伸比的增加而增加,但对叶片距宽比相对不敏感;在锚体几何结构相同的前提下,激振荷载幅值越大,直桩土系统的共振频率越小,但激振荷载幅值对螺旋锚土系统共振频率的影响相对较小。     

雨载作用下浮顶结构有限元分析的载荷修正法

浮顶结构的受力与变形之间存在着非线性的耦合关系,这给计算分析带来了很大的麻烦。为了解决这一问题,本文提出了单盘式浮顶结构在雨水载荷作用下有限元分析的载荷修正计算方法。通过对浮顶结构力学模型的分析,建立了浮顶结构载荷与单盘挠度之间的关系式,并基于这一关系式给出了浮顶结构有限元分析的载荷修正法和相应计算方案。载荷修正法的基本思想是,首先利用有限元方法对浮顶结构进行几何大变形非线性分析,然后通过迭代修正来调整载荷大小,使得计算得到的载荷与挠度满足给定关系式,最终获得浮顶结构的变形与受力情况。最后,将计算结果与试验结果进行了比较,验证了本文提出的计算方法的有效性和可靠性,为浮顶结构的进一步有限元分析打下基础。     

斜拉桥索梁锚固区边界条件对结构受力的影响

针对苏通(苏州-南通)长江公路大桥斜拉桥锚箱式索梁锚固结构进行了足尺静载试验,采用空间有限元方法分析实际结构和试验模型锚固区的应力与变形,将试验与计算结果进行比较,验证计算方法的正确性。在此基础上,做了大量仿真计算,详细探讨了索梁锚固结构周围边界条件的不同对结构受力的影响,计算了实际结构在不同约束条件下索梁锚固区的各种应力分布情况,进而得到了一些有益的结论,为今后类似结构试验的设计提供参考。     

基于细长梁单元的悬索桥主缆线形分析Study on main cable shape of suspension bridge based on slender beam element

悬索桥主缆线形的精细化计算需要同时考虑弯曲刚度及初始弯曲的影响,为此将主缆离散为小挠度的细长梁单元,推导包含自重项的细长梁单元的刚度矩阵,其中考虑了轴力对弯曲刚度的影响及弯矩引起的轴向刚度修正系数。基于细长梁单元编制主缆线形计算的有限元程序,采用改进的迭代法求解几何非线性结构的平衡状态,并考虑鞍座处主缆线形的修正。利用程序计算了两座悬索桥主缆在恒载作用下的变形,结果表明,主缆弯曲刚度对跨中和桥塔附近主缆线形的影响较大,且矢跨比越大,主缆线形的计算误差就越大。由弯曲刚度引起的主缆线形计算误差将会带来吊索下料长度计算不准确、索夹放样坐标不准确、成桥桥面线形达不到设计线形以及成桥吊索力分布不均匀等问题,尤其是对矢跨比较大的自锚式悬索桥,需要在设计和施工中引起足够的重视。     

基于细长梁单元的悬索桥主缆线形分析

悬索桥主缆线形的精细化计算需要同时考虑弯曲刚度及初始弯曲的影响,为此将主缆离散为小挠度的细长梁单元,推导包含自重项的细长梁单元的刚度矩阵,其中考虑了轴力对弯曲刚度的影响及弯矩引起的轴向刚度修正系数。基于细长梁单元编制主缆线形计算的有限元程序,采用改进的迭代法求解几何非线性结构的平衡状态,并考虑鞍座处主缆线形的修正。利用程序计算了两座悬索桥主缆在恒载作用下的变形,结果表明,主缆弯曲刚度对跨中和桥塔附近主缆线形的影响较大,且矢跨比越大,主缆线形的计算误差就越大。由弯曲刚度引起的主缆线形计算误差将会带来吊索下料长度计算不准确、索夹放样坐标不准确、成桥桥面线形达不到设计线形以及成桥吊索力分布不均匀等问题,尤其是对矢跨比较大的自锚式悬索桥,需要在设计和施工中引起足够的重视。     

损伤拉索的等效弹性模量及其参数分析

损伤拉索会出现线形松弛、应力水平降低的情况,必然会影响拉索的等效弹性模量。本文首先引入损伤程度、位置及范围3个参数,用以描述拉索损伤形态的特征,建立损伤拉索索力和线形计算公式,采用数值方法计算了损伤拉索弦向等效弹性模量精确数值,并和经典的等效弹性模量公式的计算结果进行了比较分析,分析了考虑损伤时两种不同计算方法结果的误差。计算表明,对于500m弦向长度以内的损伤拉索,拉索的弦向长度Lc越大,倾角越小,等效弹性模量的损失越大,并且应用割线模量公式计算的误差也越大,当Lc=500m时,损伤拉索相对误差值在2.5%~4.5%之间。弦向应变越小,等效弹性模量损失越大,弦向应变在[0.001,0.004]内,应用割线模量公式计算的相对误差小于3.5%。损伤程度及损伤范围对引用等效弹性模量公式的误差影响较大,倾角对等效弹模公式相对误差的影响也不容忽视。弦向长度、弦向应变、倾角和损伤程度参数都是通过改变拉索的松弛程度进而影响等效弹性模量的数值以及公式的误差。     

一维磁电弹准周期结构带隙特性的研究

采用传递矩阵方法,研究了横波(SV波)垂直入射时压电/（弹性/压磁）和（压电/弹性）/压磁两种Fibonacci准周期结构的频带特性,通过计算局部化因子和位移透射系数,数值揭示了此两种Fibonacci准周期结构频带特性的差异以及与相应理想周期结构频带特性的不同,而且表明（压电/弹性）/压磁Fibonacci准周期结构的频带特性与纯弹性材料Fibonacci准周期结构的频带特性是相似的。     

Numerical study of a well boat operating at a fish farm in current

Dynamic response of a well boat operating at a fish farm in current is investigated numerically. An objective is to determine the operational conditions of the well boat. In terms of the fish farm, a realistic set-up (with single cage) is considered, including a floating collar, an elastic sinker tube, a flexible-closed net cage and a complex mooring system. A time-domain solution is used to find the steady configuration and response. Transverse viscous current loads are estimated using the cross-flow principle. The drag coefficients are obtained empirically by considering cross-sectional details, free surface and three-dimensional (3D) flow effects. The drag force is experimentally validated. The effect of the ship wake on the net loading is also assessed.The most critical scenario with the well boat placed at the weather side of the fish farm is analyzed in detail. Critical response variables for operational limits are the maximum anchor-line tensions and floater stresses. Numerical results show that the anchor loads will increase more than 40% in small current velocities and up to 90% in high current velocities due to the viscous current loads on the boat. There is also a strong increase of the floating collar deformations and stresses when the well boat is in contact with the floating collar.A sensitivity analysis has been carried out to identify the physical parameters affecting the anchor loads and the maximum stress in the floating collar. From our studies, the anchor loads are more sensitive to current direction, bottom weight system, sinker tube depth and mooring line properties (pretension load, anchor chain weight, etc.) and less sensitive to other parameters such as floating collar stiffness and cross-sectional drag coefficients of the well boat. The shading effect of the well boat on the fish-farm inflow has been examined and appeared not negligible with 4% to 10% reduction of the anchor loads for the studied current conditions. The maximum stress in the floating collar is sensitive to well-boat loads related parameters (current direction, cross-sectional drag coefficient) and pretension load in the anchor line; not so sensitive to net loading related parameters such as sinker tube depth and sinker tube weight.Lastly, the operational conditions of the well boat at the fish farm were discussed. Numerical results show that the maximum stresses in the floating collar should be of major concern. The loads in the mooring lines are moderate compared with the corresponding breaking limits.     

Analysis of hydrodynamic behaviors of multiple net cages in combined wave–current flow

Numerical simulation is performed to analyze the hydrodynamic response of a net cage and submerged mooring grid system exposed to waves and current. A series of experiments are conducted to validate the numerical model of net cage and grid mooring system. The numerical results of this model correspond with those obtained from experimental observations. Then, the numerical simulation of a multi-cage and mooring system under the action of waves combined with current is conducted. The influence of waves and current directions and the length of grid lines on the cage responses are discussed. The twin mooring system and the orthogonal mooring system are compared. Results show that for the orthogonal mooring system, the maximum tension force on the anchor line of the four-cage system is less than four times of that of the single-cage system, when both waves and current travel along the x-axis. The minimum net cage volume holding coefficient of the single-cage system is smaller than that of the four-cage system. The amplitude of the mooring line tension force for the twin mooring system is larger than the orthogonal mooring system.     

水下锚索动力响应分析及索力识别方法研究

海洋资源和海洋空间的开发利用是21世纪人类发展海洋的两大主题. 锚索作为海洋装备和深海建筑的重要承力和锚固构件, 其损伤和破坏将直接影响整个结构的安全性和耐久性, 因此有必要对锚索的服役期状态进行实时监测和评估. 索力是反映锚索静动力学特性的重要物理量, 掌握索力的实时变化情况对于锚索的健康监测及状态评估具有重要意义. 现有研究通常在张紧弦或简支梁模型的基础上, 采用修正索力公式或智能优化算法来识别索力, 未能充分考虑垂度引起的几何非线性影响. 为了在理论上给出物理意义更加明确、识别精度更高的锚索索力识别公式, 针对水下锚索的几何非线性及阻尼非线性特点, 首先利用等效线性化技术, 推导了锚索自由振动频率和响应的摄动解, 给出了考虑锚索垂度的频率解析表达式; 在此基础上给出了基于振动法的索力识别方案; 数值案例表明本文方法识别结果与真实值一致, 从而验证了本文方法的准确性. 相关理论和结论能够为此类工程结构的动力分析和健康监测提供理论依据.      

非滑移刚度理论下的空缆线形半解析算法

为设计阶段更简洁和准确地计算悬索桥空缆线形，提出了一种锚跨水平张力-预偏量-修正水平力迭代过程的非滑移刚度理论计算方法。基于分段悬链线理论，探讨了空缆线形计算存在的三种不同情况，并以此为计算思路。在任一锚跨水平张力作用下，考虑鞍座对空缆线形的影响，以各跨无应力索长不变与鞍座两侧的力或力矩平衡为准则，推导了各跨左右鞍槽接触段和悬空段的内力与线形平衡方程，以及迭代过程中待求参数之间的影响矩阵及修正方法，以右边塔索鞍处不动点里程坐标误差为收敛条件，采用了二分法迭代出理论的左锚跨水平张力，进而得到空缆状态下各索鞍的预偏量以及各跨索段内力与线形。通过算例比对，验证了本文方法的可靠性。结果表明，在成桥状态下结构参数已知的基础上，仅需求解左锚跨水平张力一个变量参数，即可得到各跨索股线形与内力以及鞍座预偏量。相比传统的滑移刚度理论方法，本文方法迭代过程方便简洁，易收敛且精度高，无需往复固定或释放一个鞍座约束进行迭代求解，提高了计算效率，适用于任意跨对称或非对称空缆线形的计算。     

弹性地基梁理论在锚索抗滑桩计算中的应用

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针对目前锚索抗滑桩的内力计算通常未考虑滑面以上桩身与岩土体的相互作用关系,而将滑面以上桩身按一般静力结构或有限次超静定结构计算的现状。本文根据弹性地基梁理论,考虑锚索与桩的变形协调,将初参数法运用到锚索抗滑桩的计算中,通过选取合理的初参数作为未知量,得到了锚索拉力以及桩身内力的计算过程。并结合皖南地区某处产生滑移弯曲变形的顺层滑坡治理工程进行了分析,与传统方法计算结果相比,本方法所得内力值较大,偏于安全,桩身内力分布规律与传统方法所得结果较吻合。
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Numerical study of a well boat operating at a fish farm in long-crested irregular waves and current

The dynamic response of a coupled well boat–fish farm system in irregular long-crested waves and current is analyzed numerically in the time domain. The main purpose is to investigate the influence of the well boat on the fish farm and then to determine the operational conditions of the well boat.The numerical study of slow-drift sway motion of the well boat is performed at first. Hydrodynamic and statistical theories are briefly introduced. The cross-flow principle is assumed valid for evaluating the transverse viscous loads and the needed cross-sectional drag coefficients are estimated empirically and validated against available experiments. The mean value and standard deviation of the slow-drift motion from time domain agree well with those from frequency domain when equivalent linearized drag damping is incorporated.The coupled system with the well boat placed at the weather side of the fish farm is then analyzed in detail. Special attention is paid to two critical response variables, i.e., maximum anchor-line loads and maximum floating collar stresses. Numerical results show that the examined two variables will increase more than 300% due to the well boat in moderate exposure sea states. A sensitivity analysis is also carried out to identify the important parameters influencing these two response variables. Cross-sectional drag coefficients for the well boat and fish-farm related parameters (pretension load in the anchor lines and anchor-line stiffness) have moderate influence on the two variables. Simplifying the modeling of the coupled system, for instance neglecting the net cage and the first-order motion, has more effect on the maximum anchor load than on the maximum floating-collar stress and reduced sensitivity is observed in current, especially for the latter variable.Lastly, the operational conditions of the well boat are determined through systematic simulations. Numerical results show that the maximum loads in the mooring lines are moderate compared with the corresponding breaking limits even in high exposure sea states, while for the maximum stress in the floating collar can be close to the yield stress when operating in moderate exposure regions.     

DYNAMICS OF MOORING CABLES IN RANDOM SEAS

The dynamic analysis of a catenary mooring cable due to random motion of an offshore platform is performed in the frequency domain. The nonlinear fluid-drag force is linearized using the statistical linearization technique. A previously developed numerical procedure based on converting a boundary value problem to an equivalent set of initial value problems is utilized to solve the problem, which avoids the need for modal analysis. The method is found to be versatile for the determination of spatially varying drag and the analysis of composite cables in a unified manner. The influence of current on drag damping has also been investigated. The effect of seabed friction damping has also been incorporated in the linearized analysis.     

爆破开挖扰动下锚固节理岩质边坡位移突变特征与能量机理

针对白鹤滩水电站左岸坝基河谷底部边坡岩体爆破开挖,采用现场岩体位移监测、锚索轴力监测及数值模拟的手段,研究了爆破开挖扰动下锚固节理岩质边坡的位移突变特征及其能量机理。研究结果表明:对于深切河谷底部高地应力边坡岩体爆破开挖,爆炸荷载挤压及地应力作用下,岩体所积聚的应变能快速释放,导致了节理岩质边坡的位移突变,突变位移包括节理张开位移和岩体回弹位移两部分;地应力水平越高、岩体弹性模量越低,总的突变位移量越大;预应力锚索主要通过抑制节理张开位移来控制边坡岩体的位移突变,锚索预应力等级越高,其吸能和释能速率越高,对节理岩体位移突变的控制效果越好,当锚索的预应力等级高到一定程度后,节理岩体的突变位移不再随锚索预应力等级的升高而显著减小。     

锚索抗滑桩工程的优化设计研究

锚索抗滑桩与普通抗滑桩相比,其受力状态更加合理。本文通过建立合理的计算模型和计算简图,推导出锚索在桩身任意位置的计算公式,并编制程序实现弯矩和应力的计算,确定出最优的锚固角和最优的锚索位置,可以有效减小抗滑桩的弯矩,更加充分的发挥锚索的作用。文中最后结合延安宝塔山滑坡治理,给出了实际应用结果。     

Experimental and numerical study of an aquaculture net cage with floater in waves and current

The mooring loads on an aquaculture net cage in current and waves are investigated by dedicated model tests and numerical simulations. The main purpose is to investigate which physical effects are dominant for mooring loads, and in this respect, to investigate the validity of different rational hydrodynamic load models. Also structural and numerical aspects are investigated. The model tests are performed to provide benchmark data, while the numerical model is used to study the effect and sensitivity of different load models and parameters.Compared to a realistic aquaculture plant, the total system is simplified to reduce the complexity. The system does, however, include all the four main components of an aquaculture plant: net cage, floater, sinker weights and moorings. The net cage is bottomless, flexible and circular. It is attached to a circular, elastic floater at the top and has 16 sinker weights at the bottom. The system is nearly linearly moored with four crow feet mooring lines.The loads are measured in the four mooring lines. A systematic variation of current only, wave only as well as combined current and wave conditions is carried out. The numerical simulation results are first benchmarked towards the experimental data. The mean loads in general dominate over the dynamic part of the loads in combined current and waves, and they significantly increase in long and steep waves, relative to current only. Next, a sensitivity study is carried out. A rigid floater significantly alters the loads in the mooring lines compared to a realistic, elastic floater. The theoretical model for the wave matters. The mooring loads are rather insensitive to a majority of the parameters and models, in particular: frequency dependent added mass of the floater and nonlinear restoring loads. It seems not to be necessary to represent the net cage with a very fine numerical mesh.