弯-剪-扭耦合荷载作用下钢管混凝土短柱受力性能研究

为研究钢管混凝土短柱在剪切和扭转复合作用下的受力性能,开展了10个钢管混凝土短柱试件在纯扭、弯-剪和弯-剪-扭荷载作用下的拟静力往复加载及单调加载试验,得到了钢管混凝土短柱的荷载-变形曲线和钢管应变分布规律。试验结果表明：钢管混凝土短柱具有良好的承载能力和塑性性能;在纯扭作用下,圆形钢管混凝土短柱在往复扭转荷载作用下钢管发生低周疲劳破坏;方形钢管混凝土短柱在单调及往复扭转荷载作用下钢管面外发生斜向局部屈曲;纯扭往复荷载作用下的钢管混凝土柱的荷载-变形骨架曲线与单调加载下基本一致;在弯-剪及弯-剪-扭复合荷载作用下,在进入塑性工作阶段前截面的轴向变形基本满足“平截面假定”;在弯-剪-扭耦合荷载作用下,短柱的破坏模式取决于弯扭比,在弯扭比较大（为1.90）时,其类似于弯剪破坏,在弯扭比较小（为0.96）时,其类似于扭转破坏。在有限元模拟及大量参数分析的基础上,得到了钢管混凝土短柱的弯-剪-扭承载力相关方程,承载力计算结果与有限元分析结果吻合较好。     

Strain ratcheting of steel tubulars with a rectangular defect under axial cycling: A numerical modeling

Cyclic axial loads in tubular steel sections might lead to local buckling, wrinkling and accumulation of plastic strains in the tube. For example, this can be caused by repetitive start-up/shutdown and temperature changes in an offshore pipeline which generates cycles of axial compression/relaxing in the line. During their life time steel tubes may also experience material loss due to corrosion or wall thinning.The current paper reports the result of a numerical modeling of ratcheting behavior of steel tubes with a rectangular defect under cyclic axial loadings. The tubes have been initially subjected to monotonic axial compression beyond initiation of small amplitude wrinkles and subsequently to persistent axial cyclic loads. A nonlinear isotropic/kinematic (combined) hardening model has been adopted for the material, which its parameters have been obtained from cyclic tests conducted on small coupon specimens. The results of the numerical simulation have been compared with experimental data. In general, a reasonable agreement has been noticed between the experimental and the numerical results for the ratcheting behavior of the tubes. It is shown that surface imperfections have a very pronounced effect on the ratcheting response of the defected tubes, as compared to the monotonic responses. The model has also been used to study effects of some key factors such as the initial strain level, the stress amplitude, the mean stress, the loading regime, wall thinning and the material hardening properties on the ratcheting response and on the progressive plastic buckling of steel tubes with a rectangular defect.     

Behavior and strength of circular tube confined reinforced-concrete (CTRC) columns

An experimental investigation was conducted on the behavior of circular tube confined reinforced-concrete (CTRC) columns. Eighteen CTRC stub columns were tested under cyclic or monotonic axial compression. The results of the elastic-plastic analysis on the steel tubes indicate that the steel tube yields at the peak load point in the stub columns under axial compression. In addition, a design equation to calculate the axial load strength of CTRC columns is proposed. A total of five columns including one circular reinforced-concrete (CRC) column and four CTRC columns have been studied under combined axial compression and lateral cyclic load. The test results indicate that CTRC columns exhibit much higher flexural strength, displacement ductility and greater energy dissipation ability than CRC columns confined with hoop ties. The flexural strength increases as the axial load ratio or concrete compressive strength increases for CTRC columns, while the ductility is barely affected by the increase in axial load or concrete compressive strength. It is proposed that the moment strength of the cross section of CTRC columns can be calculated using a modified ACI code method.     

轴向循环荷载作用下有矩形缺陷钢管的应变棘轮:数值模型

轴向循环荷载作用下,钢管易产生局部屈曲、起皱及塑性应变。由于反复的开启/关闭和温度变化,海底管道处于加载和卸载循环中。在工作中,由于受腐蚀,壁厚变薄,钢管通常发生材料损伤。建立数值模型,模拟循环荷载作用下有矩形缺陷钢管的棘轮性能。钢管首先受单轴轴向压缩,小幅起皱,随后施加持续轴向循环荷载。采用非线性各向同性/随动(混合)硬化模型,模型各参数通过小型试件的滞回试验获得。钢管棘轮性能的数值结果与试验数据基本吻合。相比于动力性能,表面缺陷对有缺陷钢管的棘轮性能影响更大。基于本模型,还可研究初始应变、应力振幅、加载制度、壁厚和材料硬化属性等因素对有矩形缺陷钢管的棘轮性能和连续塑性屈曲性能的影响。     

劲化方形截面钢管混凝土短柱轴压试验研究

采用劲化方形截面钢管混凝土柱可以有效地提高柱钢管壁的侧向刚度,增强其抵抗局部屈曲的能力和改善对核心混凝土的约束作用。通过普通方形截面钢管混凝土柱和劲化方形截面钢管混凝土短柱的轴压试验,对柱的轴压破坏形态、轴力-变形特征、钢管应变等进行了分析。结果表明：劲化带的设置使钢管壁对核心混凝土的约束作用更趋均匀,改变了钢管的局部屈曲变形状态,明显提高了方形截面钢管混凝土柱的轴压承载力和变形能力。根据劲化方形截面钢管混凝土短柱的受力分析,提出了轴压承载力计算式,计算结果和试验结果吻合良好。     

Mechanical performances of concrete-filled steel tubular stub columns with round ends under axial loading

An experimental study of 22 concrete-filled round-ended steel tubular (CFRT) stub columns under axial compression is conducted compared with 4 circular concrete-filled steel tubular (CFT) stub columns. The influences of width–thickness ratio, concrete strength, steel yield strength and wall-thickness of steel tube on the ultimate bearing capacity of the CFRT columns are discussed. The 3D finite element (FE) model is also developed to analyze the behavior of the CFRT columns under axial compression. From the results, local buckling of the round-ended steel tube associated with shear failure of in-filled concrete could be observed. With the increasing width–thickness ratio, the corresponding load–strain curves have a shorter elastic–plastic stage. The parametric studies indicate that the concrete strength, tube thickness and width–thickness ratio of the steel tube also have a great effect on the ultimate bearing capacity. The numerical results also show that the confinement effect of the stub columns decreases with the increasing width–thickness ratio. A practical calculation formula for the bearing capacity of the CFRT stub columns is proposed, which is well in agreement with the experimental results.     

设分配梁与内环板传力构造的巨型钢管混凝土柱抗震性能试验研究

针对7个按1∶5缩尺的设置分配梁加内环板传力构造的巨型钢管混凝土柱试件进行拟静力试验研究,考察了轴压比、长细比、管壁宽厚比及纵向T形加劲肋等因素对此类构件抗震新能的影响。研究结果表明,管壁宽厚比大于60的试件,在达到极限荷载之前（约为极限荷载的63%）发生管壁局部屈曲,延性较差;设置T形加劲肋可有效减小管壁宽厚比,提高管壁局部屈曲强度,改善试件的延性性能及耗能能力;试件位移延性系数随轴压比和试件长细比的增大而降低,刚度退化越明显;在低周反复荷载作用下,同时设置分配梁与内环板传力构造的钢管混凝土柱试件破坏时的位移角超过了规范规定的弹塑性层间位移角限值,满足抗震设计要求,且钢管与核心混凝土变形协调,相应的截面属性和压弯承载力可按平截面假定计算。     

考虑屈曲效应的混凝土柱纵筋低周疲劳性能和变形能力研究

屈曲导致的局部塑性应变集中将使钢筋损伤加重,并提前断裂.传统低周疲劳损伤模型(如Coffin-Manson模型,简称C-M模型)中未考虑屈曲效应的影响,这将高估屈曲钢筋的低周疲劳寿命.为研究屈曲对钢筋疲劳寿命的影响,完成了30个原状钢筋试件考虑屈曲的循环加载试验,得到了钢筋断裂时的极限塑性平均应变的测量结果,分析了局部...     

A novel steel section for concrete-filled tubular columns

In modern structural constructions, concrete-filled steel tubular (CFT) columns have gradually become a central element in structural systems like tall buildings, bridges and so forth. The effective parameters on load carrying capacity of CFT columns are the bond between the steel and internal concrete, local buckling strength of steel tube, creep of concrete and loading conditions of column at connections. Considering these effective parameters, a novel section is suggested which can be used for columns of tall buildings and bridges with large spans. The main characteristic of the suggested steel section is internal longitudinal symmetric stiffeners. In the present study, a comparative investigation into the behavior of this novel section (with circular and octagonal shapes) and the most common used sections of CFT columns has been carried out under axial and cyclic loading. Having verified the finite element modeling, several different analyses have been undertaken. The results of the analyses clearly exhibit the increase in strength and ductility of the suggested novel section under axial and cyclic loading and therefore, its application is recommended in construction practice.     

Q460高强钢焊接箱形截面轴压构件整体稳定性能研究

为研究高强度钢材轴心受压钢柱的整体稳定性能,对5个国产Q460钢材焊接箱形截面柱进行了轴心受压试验研究。试验对试件的几何初弯曲、荷载初偏心以及截面的纵向残余应力分布均进行了测量。基于试验结果,分析了该类钢柱的失稳破坏形态和整体稳定承载力,建立了有限元分析模型并对试验结果进行模拟计算。研究结果表明：试件破坏模态均为整体弯曲失稳形态,大部分试件稳定承载力高于规范设计值;有限元分析模型能够准确地考虑几何初始缺陷和残余应力的影响,计算结果与试验结果吻合良好;通过与国内外钢结构设计规范的对比,提出了国产Q460高强钢焊接箱形截面轴压构件整体稳定设计的建议方法,即可以统一采用我国或欧洲规范的b类曲线进行设计,而不需要按板件宽厚比大小进行分类。     

Overall buckling behavior of 460 MPa high strength steel columns: Experimental investigation and design method

Overall buckling behavior of compression columns is one of the most important research subjects in steel structures, especially for high strength steel which has been increasingly applied in recent years. An experimental investigation was carried out to study the overall buckling behavior of 460 MPa high strength steel compression members. Totally twelve columns including welded box and I-sections were comprised. The initial imperfections such as the residual stress, initial bending and loading eccentricity were all measured. Based on experimental results the buckling deformation and capacity were investigated. A finite element model was established and further validated by comparing with the test data in both present study and other previous researches, in which initial imperfections were taken into account. A large number of columns with various section dimensions and lengths were calculated by using the validated model, and their buckling capacities were compared with design values according to different steel structures specifications. It was found that the nondimensional buckling strength of such 460 MPa high strength steel columns were significantly improved compared to normal strength steel columns, and corresponding column curves and design formulae were suggested.     

960 MPa高强度钢材轴心受压构件局部稳定试验研究

针对960 MPa高强度钢材轴心受压构件的局部稳定性能,对4个箱形截面试件和4个工字形截面试件进行了轴心受压试验。分析了试件的局部稳定性能,并将试验结果与我国、美国和欧洲钢结构设计规范的相应设计计算结果进行了对比分析,研究各国规范对960 MPa高强度钢材轴心受压构件局部稳定性能设计计算的适用性。研究结果表明：当构件的板件宽厚比相同时,960 MPa高强度钢材构件的局部屈曲后强度要大于460 MPa高强度钢材构件,960 MPa高强度钢材构件应考虑钢材的屈曲后强度;我国现行钢结构设计规范中关于轴心受压构件局部屈曲应力的计算结果不适用于960 MPa高强度钢材构件;在试验钢材板件宽厚比范围内,960 MPa高强度钢材构件的局部屈曲承载力,采用美国规范和欧洲规范的设计计算结果较为准确。     

高强度钢材轴心受压构件的受力性能

介绍了高强度钢材在实际工程中的应用状况,基于高强度钢材焊接截面钢柱轴心受压试验结果,给出了高强度钢材焊接箱形和焊接I形截面的残余应力分布,并结合多个国家的钢结构设计规范对试验结果进行了分析计算、讨论和比较,对高强度钢材焊接截面轴心受压构件整体稳定和局部稳定受力性能进行了研究。研究结果表明,焊接箱形和焊接I形(绕弱轴,翼缘为焰切边)两种截面(板厚<40mm)的高强度钢材(屈服强度690MPa)轴心受压构件的整体稳定系数高于普通钢材钢构件,可以划分为b类截面;而翼缘的局部稳定性能没有明显提高,翼缘宽厚比限值仍可采用我国现行钢结构规范的规定值。     

460MPa高强钢柱整体屈曲性能:试验研究及设计方法

受压柱的整体屈曲性能是钢结构研究的重要课题之一,尤其是近几年来应用越来越多的高强钢。对460MPa高强受压构件的整体屈曲性能进行试验研究。对包括焊接箱形截面和I形截面的12根钢柱进行试验。测量构件的残余应力、初弯曲和加载偏心率等初始缺陷。结合试验结果研究其屈曲变形和屈曲承载力。建立有限元模型,并与当前及以往研究中考虑初始缺陷的试验数据进行对比。采用经过验证的模型对大量不同截面尺寸和不同长度的柱的屈曲承载力进行估算,并将计算结果与其他钢结构规范的设计值进行对比。结果表明:460MPa高强钢柱,其无量纲屈曲强度与普通强度钢柱相比明显提高,并给出了相应的柱曲线和设计公式。     

Experimental research on mechanical behavior of concrete-filled thin-walled stiffened square steel tubular short column under axial load

为研究带肋薄壁方钢管混凝土轴压短柱的受力性能,以钢管宽厚比、加劲肋宽度和加劲肋个数为参数,对26个薄壁方钢管混凝土短柱进行了试验研究。研究结果表明：对于无肋试件,在达到承载力以前管壁已经发生鼓曲,且试件宽厚比越大,鼓曲越早发生,鼓曲部位的钢管截面越早退出工作,没有发挥出钢管混凝土的优势。设置加劲肋后薄壁方钢管混凝土短柱的受力性能得到明显改善,钢管壁的局部鼓曲得以延缓,材料强度得到了充分利用,试件承载力提高。当试件宽厚比为60、80时,加劲肋宽度对试件承载力影响最明显,加劲肋宽度越大,承载力越高,增加加劲肋个数对试件承载力影响不大;而当试件宽厚比为100时,设置单个加劲肋已不能满足对管壁局部屈曲的抗弯刚度要求,必须增加加劲肋的个数以增加约束钢管变形的支撑点,减小管壁局部屈曲的波长,提高试件局部屈曲的临界荷载。同时利用ABAQUS有限元计算软件对薄壁带肋方钢管混凝土轴压短柱的受力全过程进行了模拟,并将试验结果与有限元模拟结果进行了对比,两者吻合良好,为下一步分析奠定基础。     

带肋冷弯薄壁方钢管混凝土柱滞回性能研究

对3根带肋冷弯薄壁方钢管混凝土柱进行滞回试验,主要参数为轴压比。试验结果表明：纵向加劲肋有效延缓了钢管壁局部屈曲的发生;其滞回曲线饱满,具有良好的耗能能力;随着轴压比的增大,柱承载力略有增大,而延性、耗能能力则明显减小;当横向位移大于6倍的屈服位移时,大轴压比的刚度退化速度最快。建立了该类试件的有限元模型,对比可得有限元模拟结果与试验结果吻合较好。基于有限元模型对该类构件开展机理分析和参数分析。结果表明：在带肋冷弯薄壁方钢管的约束下,核心混凝土的强度得到了较大提高;钢管局部屈曲发生在峰值荷载后,局部屈曲只发生在纵向加劲肋和钢管角部间;材料强度、轴压比、钢管宽厚比和长细比等参数对该类构件的承载力有较大影响;混凝土强度、轴压比和长细比对荷载-位移骨架曲线形状有较大影响。基于参数分析建议了该类构件的简化滞回模型,简化计算结果和有限元计算结果吻合较好。     

Experimental study of fire-resistant steel H-columns at elevated temperature

This paper presents the experimental studies of axially loaded fire-resistant steel columns under elevated temperature. With the advancement of metal production, fire-resistant steel with enhanced mechanical properties at elevated temperatures has been developed recently. However, extensive research work is needed in order for the application of fire-resistant steel in building structures. In this study, a series of fire-resistant steel columns was loaded to their ultimate states at specified temperature. The effects of width-thickness ratios, slenderness ratios and residual stress on the performance of fire-resistant steel H-columns are examined. Based on this study, it is found that the section property of fire-resistant H-columns should be at least a non-compact section in order to prevent local buckling. Column strength is sensitive to slenderness ratio at elevated temperature. The strength of a slender column decreased sharply especially for temperatures above 600 ^°C. It is also found that the failure mode of steel columns changed from inelastic global buckling at room temperature to local buckling at elevated temperature, due to the release of residual stress in fire. An analytical model is proposed which is able to predict the behavior of fire-resistant steel H-columns under elevated temperature. Design guidelines are also proposed for the design of fire-resistant steel columns in fire conditions.     

型钢-方钢管自密实高强混凝土轴压短柱受力性能的试验研究

提出了一种重载柱设计的模式,即型钢-方钢管自密实高强混凝土柱。该组合柱是在方钢管中填充自密实高强混凝土和型钢而形成。通过13根型钢-方钢管自密实高强混凝土短柱的轴心受压试验,研究了该组合柱的受力性能。试验结果表明自密实试件与经过振捣的试件的受力性能几乎没有差别;型钢的存在有效地延缓或抑制了高强混凝土中剪切裂缝的产生从而提高了构件的延性;混凝土强度、方钢管的宽厚比和型钢的用量对构件的强度和延性有着显著影响。最后给出了型钢-方钢管自密实高强混凝土轴心受压短柱强度承载力的计算公式,计算结果与试验结果吻合良好。     

Seismic behavior of L-shaped concrete-filled steel tubular columns with reinforcement stiffeners

制作了1根对拉钢筋加劲L形截面钢管混凝土柱试件和2根非加劲L形截面钢管混凝土柱试件,对其进行低周往复水平荷载作用下的滞回性能试验,考察对拉钢筋和轴压比对其抗震性能的影响规律。结合OpenSees有限元分析,研究其破坏模式和滞回性能,分析对拉钢筋的作用以及钢管对混凝土的约束作用。结果表明：对拉钢筋能有效限制钢板的局部屈曲以及阴角处钢管和混凝土的脱离,保证钢管和混凝土共同工作;轴压比从0.3增加到0.6时,非加劲L形截面钢管混凝土柱的耗能能力及延性均降低;相同轴压比下,相比非加劲L形截面钢管混凝土柱,对拉钢筋加劲L形截面钢管混凝土柱的破坏程度明显减轻,耗能能力及延性明显提高;有限元分析结果基本能反映试件在低周往复水平荷载作用下的抗震性能。     

异形钢管短柱轴压力学性能研究

利用有限元分析软件ABAQUS建立等截面周长的三角形、扇形、D形、1/4圆形、1/2圆形5种异形截面钢管短柱轴压力学性能分析的有限元计算模型,有限元计算与试验所得的荷载-应变全过程曲线及短柱破坏形态吻合较好。在此基础上对其受力全过程中钢管的应力与塑性应变的分布进行分析,并对截面形式、钢管壁厚、钢管屈服强度等几种影响异形钢管承载力和变形的因素进行比较。结果表明:异形钢管短柱在1/2柱高处发生局部屈曲破坏,截面形式、钢管壁厚、钢管屈服强度等参数对其力学性能影响显著。