Buckling analysis of shear deformable composite conical shells reinforced by CNTs subjected to combined loading on the two-parameter elastic foundation

The main objective of this study is to investigate the buckling analysis of CCSs reinforced by CNTs subjected to combined loading of hydrostatic pressure and axial compression resting on the twoparameter elastic foundation(T-P-EF).It is one of the first attempts to derive the governing equations of the CCSs reinforced with CNTs,based on a generalized first-order shear deformation shell theory(FSDST)which includes shell-foundation interaction.By adopting the extended mixing rule,the effective material properties of CCSs reinforced by CNTs with linear distributions are approximated by introducing some efficiency parameters.Three carbon nanotube distribution in the matrix,i.e.uniform distribution(U)and V and X-types linear distribution are taken into account.The stability equations are solved by using the Galerkin procedure to determine the combined buckling loads(CBLs)of the structure selected here.The numerical illustrations cover CBLs characteristics of CCSs reinforced by CNTs in the presence of the T-P-EF.Finally,a parametric study is carried out to study the influences of the foundation parameters,the volume fraction of carbon nanotubes and the types of reinforcement on the CBLs.

Segmental Bridges under Combined Torsion, Bending and Shear

Segmental bridges with unbonded prestressed tendons have some advantages, such as the weather independence and the corrosion protection of prestressing tendons. This paper analyzed the behavior of a prestressed segmental bridge with unbonded tendons under combined loading of torsion, bending and shear. According to the experiment research, a modified skew bending model was developed to calculate the bearing capacity of segmental bridges subjected to combined bending, shear and torsion. The finite element method was used to investigate the deflection behaviors of such structure, also to check the theoretical model. The theoretical and FEM research results were compared favorably with the test results from Technical University of Braunschweig, Germany. Finally, suggestion for the design and construction of segmental bridges with external prestressing was made.

Mechanical performance of rock bolts under combined load conditions

Rock bolts are subjected to different loading conditions along their lengths such as axial,bending,and/or shear forces,which can cause failure at lower loads than those considered for design purposes.The common existing methodologies do not consider the actual loading of the rock bolts and assume it is only pure axial or pure shear.This study was conducted to investigate the un-grouted rock bolt performance under combined load conditions.Two loading regimes were evaluated:the effect of initial shear displacement on axial load capacity and displacement,and the effect of axial displacement on the shear load capacity.The first regime was also conducted for shear with a gap,when there is a spacing between the shear interfaces.The results of this study showed that the rock bolt can resist higher axial loads than shear under pure or combined load conditions.Under combined load conditions,the rock bolt capacity decreased significantly for both regimes.However,when applying the shear load with a gap,the rock bolt load capacity was not affected significantly.Also,the total bar deformation was improved for shear and axial.The findings of this study show the need to improve the rock bolt design considering the complex loading conditions in situ with/without a gap.

Comparison of Wind-Induced Displacement Characteristics of Buildings with Different Lateral Load Resisting Systems

Due to excessive displacements of tall buildings occasioned by lateral loads, lateral load resisting systems are usually provided to curtail the load effect. The resistance may be offered by Frame Action, Shear Walls, or combined Walls and Frames (also known as Dual System). In this study, finite element based software, ETABS, was used to generate and analyse three-dimensional building models for the assessment of the relative effectiveness of the various lateral load resisting systems. Three models were used, one each for the three resisting systems. Each model consisted of three samples representing three different building heights of 45 m, 75 m, and 99 m. Wind Design Spreadsheet complying with the appropriate British Standards was used to compute preliminary wind load coefficients using the wind speed values from the relevant wind isopleth map of Nigeria as primary data. Lateral wind load was then applied at floor levels of each of the building samples. Each building sample was subjected to three-dimensional analysis for the determination of both the lateral displacements of storey tops and interstorey drifts. The results of the work showed that the dual system was the most efficient lateral-load resisting system based on deflection criterion, as they yielded the least values for lateral displacements and inter-storey drifts. The moment frame was the least stiff of the resisting systems, yielding the highest values of both the lateral displacement and the inter-storey drift.

双层波纹钢板混凝土组合剪力墙抗震性能研究

利用有限元软件ABAQUS分别建立平钢板混凝土组合剪力墙与双层波纹钢板混凝土组合剪力墙有限元模型,对2种钢板混凝土组合剪力墙在低周往复荷载作用下的受力机制及滞回性能进行对比分析,验证波纹钢板代替平钢板的合理性。通过对4种波纹尺寸不同的钢板混凝土组合剪力墙进行对比分析,研究波纹直径与波幅对组合墙体抗震性能的影响规律。结果表明:将波纹钢板代替平钢板,能显著提升墙体的承载能力、耗能能力与整体刚度。波纹直径较小、钢板波折次数较多的组合剪力墙承载能力更强;波纹直径较大、钢板波折次数较少的组合剪力墙整体刚度较强。波幅等于半径的波纹钢板剪力墙具有更强的承载能力和耗能能力,整体抗震性能较好。

考虑分布力偶作用的梁变形和内力的简易计算

从梁的挠曲线近似微分方程出发,考虑分布力偶的作用,推导了含有待定系数的挠曲线方程、转角方程、弯矩及剪力方程等,指明了各种外荷载及支座反力对梁挠曲线及转角的贡献,指出了挠曲线方程的最高次数由分布荷载与分布力偶的具体荷载形式对比决定,还给出了将分布力偶作等效处理后的求解思路。计算方法具有程式化和一般化的特点,可通过建立边界条件确定待定系数,进而可同时获得梁的变形、内力及支座反力。本文内容是对材料力学经典内容的拓展,可加深学生对梁变形和内力计算的认识。

高温后钢纤维混凝土压-剪复合受力研究

为研究高温后钢纤维混凝土压剪复合受力下的力学性能,以压应力比和温度作为参数,对20组钢纤维混凝土分别开展直剪试验和压剪试验,对比分析不同试件的破坏形态,探究了温度和压应力比对剪切强度的影响,并基于3种理论建立了高温后钢纤维混凝土压剪复合应力状态下的破坏准则。结果表明压剪复合受力状态下,混凝土剪切强度主要由接触摩阻力贡献,钢纤维混凝土峰值剪切强度随压应力比增大而增大,随温度升高而降低;随着压应力增大,剪切面上摩阻系数降低,峰值剪切强度增长幅度降低。依据试验数据,对比基于不同理论所建立的高温后钢纤维混凝土压剪破坏准则,考虑精确度和适用性,基于应力不变理论建立的破坏准则效果最好。

基于超材料的动态压剪复合加载实验新技术

材料或结构在动态压剪复合加载条件下的力学性能对于其工程应用具有重要影响。然而,现有的动态复合加载实验技术存在压缩波和剪切波难以同步施加到试件、实验设备昂贵等问题。本文中利用压扭超材料进行应力波转化,在一维分离式霍普金森压杆(split Hopkinson pressure bar,SHPB)上实现动态压剪同步复合加载。该实验技术具有荷载精准同步、剪压比可控、简单便捷、低成本等优点。针对当压扭超材料转化出来的扭转波幅值较大,透射杆惯性约束不足情况下出现的扭转信号三角波的问题进行详细讨论,并提出相应的解决方案。选用屈服应力各不相同的金属钛、304不锈钢和316L不锈钢等3种材料进行了实验测试,证实了动态压剪同步复合加载技术的有效性。借助有限元模型,深入分析压扭超材料的几何参数对其压扭系数及承载能力的影响,并结合实验结果讨论了该实验技术的适用范围,预测动态压剪同步复合加载技术能测试的材料强度可达约1 GPa,施加给试件的剪压比可达1.18。

基于双向渐进结构优化算法的预制拼装箱梁剪力键设计研究

为研究单项和多项荷载组合作用下节段预制拼装箱梁接缝处剪力键受力状况,以郑州南四环全预制装配高架桥为背景,采用Abaqus软件和双向渐进结构优化(BESO)算法,建立典型箱梁节段分析模型,研究剪力键在单位轴力、剪力、扭矩、弯矩和不同荷载组合作用下的布置规律。结果表明:轴力作用时剪力键应布置于顶板;剪力作用时剪力键应布置于腹板和底板;扭矩作用时剪力键应布置在顶板、腹板交接处和腹板外侧;横桥向弯矩作用时剪力键应布置于顶板、腹板下侧和底板;竖向弯矩作用时,剪力键应布置于顶板翼缘。轴剪组合作用下,当剪力占比小于50%时,轴力对剪力键布置起控制作用;当剪力占比达95.24%时,剪力对剪力键布置起控制作用。弯剪组合作用下,当剪力占比超过4.76%时,剪力对剪力键布置起控制作用;当剪力占比小于0.50%时,横桥向弯矩对剪力键布置起控制作用。扭剪组合作用下,当剪力占比超过0.10%时,剪力对剪力键布置起控制作用。预制拼装箱梁剪力键布置受荷载类型及荷载组合影响显著,应考虑不同位置剪力键的实际受力状况进行设计。

基于监测检测数据的真空联合堆载预压软基加固效果分析

以深圳市大空港片区大面积软基处理为例,通过直排式真空联合堆载预压法处理软基的检测及监测数据分析评价地基处理效果,结果表明,采用直排式真空联合堆载预压法处理软基后软土的物理力学性质指标、十字板剪切强度均有提升,地表沉降合理、孔隙水压力逐步消散,平板载荷实验结果满足设计要求。

结构参数对梁拱协作机理的影响

以西宁祥瑞街大桥为工程背景,该桥为单拱肋下承式连续梁拱组合桥,以力学分析和有限元建模为主线,围绕梁拱协作机理和结构参数两方面进行研究。根据拱肋分担荷载比、拱梁弯矩比、拱梁变形比的表达式,结合工程背景,绘制各参数(吊杆拱肋等代弯矩刚度比、梁拱截面抗弯刚度比、矢跨比、轴向变形放大系数、边中跨比、边中跨抗弯刚度比)与拱肋分担荷载比、拱梁弯矩比、拱梁变形比的影响曲线,分析各参数对拱肋分担荷载比、拱梁弯矩比、拱梁变形比的影响。为设计人员在方案设计初期,拟定较为合理的结构参数提供了力学依据。

单拱肋下承式连续梁拱组合桥梁拱协作机理

以单拱肋下承式连续梁拱组合桥西宁祥瑞街大桥为工程背景,基于吊杆力相等假定和膜张力假定,采用结构力学的方法,推导出梁拱组合体系在均布荷载作用下,拱肋分担荷载比、拱梁弯矩比、拱梁变形比表达式,以此揭示梁拱协作机理。采用四次抛物线对吊杆力进行拟合,通过对公式、有限元计算结果进行误差分析,得出吊杆力修正系数,以此减小吊杆力相等假定带来的误差。同理,采用余弦荷载对吊杆力进行拟合,通过对吊杆力公式、膜张力公式计算结果进行误差分析,得出膜张力修正系数,以此减小膜张力假定带来的误差。最终结合吊杆力修正系数和膜张力修正系数,计算出主梁跨中挠度、拱肋跨中挠度以及吊杆力分担外荷载比例的修正系数分别为1.1、1.2、0.9,以此减小公式误差。

小水线面双体船波浪设计载荷估算方法

以中国船舶科学研究中心开展的200t至3500t多艘SWATH船模试验结果和美国的15艘从3000t至30000t小水线面双体船波浪载荷模型试验资料为基础,给出了小水线面双体船波浪设计载荷估算公式。用该估算公式算得的小于3000t的小水线面双体船的波浪设计载荷的估算值更加接近模型试验结果,而小于目前常用的ABS公式估算值,从而可较大地减轻结构质量和建造成本。根据小水线面双体船受力特点,还提出了小水线面双体船在进行横向强度、扭转强度、总纵强度校核时各种载荷的组合方案和施加方式,供结构设计人员全面、合理地进行强度分析参考。

初次来压前受超前增压荷载作用的坚硬顶板弯矩、挠度和剪力的解析解

坚硬顶板弯矩、挠度的理论解是矿山岩体力学中未曾获得较好解决的课题。初次来压坚硬顶板问题的超静定次数,比周期来压坚硬顶板问题的超静定次数要高1次。将煤层、直接顶按弹性地基处理,对初次来压前受均布荷载、荷载峰超前的增压荷载和支护阻力共同作用的,工作面中部煤壁前方和采空区单位宽坚硬顶板的挠度进行求解,采用潘岳等求解周期来压前坚硬顶板弯矩、挠度解中的部分结果,求得满足全部连续条件和自然边界条件的坚硬顶板的4段式挠度表达式中的所有系数。据所得表达式,采用Matlab软件计算和绘图得到的初次来压前坚硬顶板挠度、弯矩曲线在考察区间光滑连接,剪力曲线连续。对曲线进行分析可知:(1)荷载增减对顶板弯矩、挠度作用明显;(2)支护阻力可有效减小煤壁前方顶板和悬空顶板的弯矩、挠度及采空区顶板的剪力值;(3)单位宽顶板的特征长度由弹性地基系数、顶板抗弯刚度组成。在相同荷载下,只要特征长度相同,顶板弯矩分布完全相同,特征长度大者顶板弯矩大;(4)弹性地基系数小者,煤壁前方顶板挠度(下沉量)大。抗弯刚度小者,采空区顶板挠度(下沉量)大;(5)顶板弯矩峰位置在煤壁前方。顶板荷载大,支护阻力小,弹性地基系数大者,其弯矩峰与煤壁的距离近。在控顶区两端顶板剪力取最大值。所得硬顶板的关系式为理想坚硬顶板模型的解析解,其应用是从解析解算例中受到启发,获得参数变动时坚硬顶板弯矩、挠度和剪力变化的规律性认识,对采场顶板状况变化作出合理的定性判断,亦可为坚硬顶板断裂过程和断裂引发顶板应变能释放、冲击矿压能量来源及初次来压步距的量化分析提供基础。

考虑土体屈服的纵横荷载单桩变形内力分析

为提高桩身变形较大时纵横荷载单桩的设计计算水平,假定地基反力系数沿深度线性增加,考虑土体屈服及纵向荷载的P-Δ效应并计入桩身自重和桩侧摩阻力的影响,得到了地面以下桩身变形和内力的幂级数解。结合已有的地面以上桩身响应的幂级数解,采用Fortran语言编制了计算程序。计算结果表明:桩顶位移、地面处桩身位移及桩身最大弯矩均随纵横向荷载和自由段桩长的增加而增大,并随土体屈服位移的增加而减小;纵向荷载足够大时桩基失稳;桩顶约束条件对桩的响应影响很大。计算值与模型试验的实测值吻合较好,所得解和程序是可靠的。

钢板剪力墙滞回性能分析与简化模型

采用壳单元分析了高厚比在100~300之间的钢板剪力墙在滞回荷载作用下的力学性能,在此基础上,提出了可用于结构体系分析的钢板剪力墙简化分析模型,即混合杆系模型,此模型避免了结构体系分析中采用壳单元模拟钢板剪力墙时的不易收敛问题,同时大大简化了分析过程.将混合杆系模型的计算结果和采用壳单元的分析结果进行对比,同时也和已有的试验结果进行对比来验证其正确性.混合杆系模型的提出为带有钢板剪力墙的结构体系弹塑性分析奠定了基础.

船用装载仪软件的设计和实现

本文就装载软件设计中的有关计算方法 :稳性、纵倾、总纵强度的计算 ,作了详细的介绍。重点介绍了强度计算时的可变重量分布的计算方法、纵倾调整、静水剪力及弯矩计算以及校核点剪力和弯矩的插值方法 (Akima算法 )。

压剪联合冲击下K9玻璃中的失效波

对K9玻璃进行了冲击速度为150～400 m/s,倾斜角为10°、15°的纵剖试样斜撞击实验.结果表明,在加载剪切横波(S + )和卸载纵波(P - )之间有波速超过了纵波波速的波阵面存在,此波的存在对卸载纵波和卸载横波的幅值有一定的影响.由于失效波的产生与材料的表面性质密切相关,为消除纵剖试样中间界面的影响,模拟VISAR的实验条件,进行了冲击速度为70～300 m/s、倾斜角为10°的横剖试样斜撞击实验.可以确定在此冲击范围失效波的波速在0.98～1.4 km/s,产生失效波的临界状态为:压应力0.86～1.01 GPa,对应剪应力0.053～0.071 GPa.表明剪应力的存在极大降低了失效波产生的阈值.在此基础上初步分析了撞击面的动摩擦因数和相对滑移速度.

双磁场IMPS粒子速度测试系统

动载下材料横向行为的直接实时测量 ,对于全面了解材料响应及其机理有重要意义 .本文介绍了自行研制的双磁场电磁IMPS粒子速度测试系统的工作原理、结构性能及初步实验结果 .该装置基于Faraday电磁感应定律 ,可实时测量多点斜碰撞产生的纵向和横向质点速度波形 ,从而解决了压剪炮试验中的s波测量问题 .

纵横荷载下单桩地基反力法的半解析解

为深入研究纵横荷载作用下的单桩响应,引入地基反力系数的一般形式,通过把地面以下桩身分成很多等长的小段并假定每段上桩身轴力和地基反力系数为常数,求得桩身响应的半解析解.结合已有的地面以上桩身响应的幂级数解,采用Fortran语言编制了计算程序.计算结果表明:桩的最大位移和最大弯矩随水平荷载的增加而大幅度增大;纵向荷载可以引起桩基失稳;地表处土反力和地基反力系数沿深度的分布形式对桩的响应影响很大.特例情况下的解与已有解的计算结果吻合得很好,所得解及程序是可靠的.