共查询到20条相似文献,搜索用时 62 毫秒
1.
提出采用高延性混凝土改善梁的抗剪性能和变形能力,设计了8个高延性混凝土梁和3个作为对比试件的混凝土梁,并通过静力试验研究不同剪跨比和配筋率高延性混凝土无腹筋梁的破坏形态和破坏机理。高延性混凝土无腹筋梁的剪切破坏形态有挤压破坏、剪压破坏、弯剪破坏和剪拉破坏。试验结果表明:高延性混凝土梁的剪切破坏均表现出一定的延性,与普通混凝土梁的脆性剪切破坏具有明显不同;高延性混凝土梁的剪切裂缝开展缓慢,说明高延性混凝土良好的拉伸应变硬化和多裂缝开展特性能够有效控制剪切裂缝的发展,防止混凝土压碎剥落,显著提高梁的抗剪性能和耐损伤能力;相比普通混凝土无腹筋梁,高延性混凝土无腹筋梁的受剪承载力和变形能力均有明显提高,表明采用高延性混凝土可以显著改善无腹筋梁的脆性剪切破坏模式;剪跨比和纵筋配筋率对高延性混凝土梁的剪切破坏形态和承载力影响较大,其受剪承载力随剪跨比的增大而降低,随配筋率的增大而有所提高。 相似文献
2.
Plasticity approach to shear design 总被引:3,自引:0,他引:3
The paper presents some plastic models for shear design of reinforced concrete beams. Distinction is made between two shear failure modes, namely web crushing and crack sliding. The first mentioned mode is met in beams with large shear reinforcement degrees. The mode of crack sliding is met in non-shear reinforced beams as well as in lightly shear reinforced beams. For such beams the shear strength is determined by the recently developed crack sliding model. This model is based upon the hypothesis that cracks can be transformed into yield lines, which have lower sliding resistance than yield lines formed in uncracked concrete. Good agreement between theory and tests has been found. 相似文献
3.
爆炸荷载作用下钢筋混凝土梁破坏形态有限元分析 总被引:27,自引:1,他引:26
在持续时间较长的爆炸荷载作用下,钢筋混凝土框架或梁通常会发生常见的弯曲破坏形态,但是在持续时间较短的爆炸荷载,如化学爆炸产生的脉冲荷载作用下,钢筋混凝土结构有可能在弯曲破坏发生之前产生剪切破坏。这种现象已被室内外试验所证实,其原因是脉冲荷载激发了结构中的剪力,从而使结构产生剪切破坏。为了预报钢筋单纯凝土梁在爆炸荷载下的响应破坏形态,本文提出了一种基于Timoshenko梁理论的非线性分层梁有限元法。在材料模型中考虑了混凝土和钢盘的右面线性和应变速率效应等因素。应用这方法,本文计算分析了爆炸荷载作用下钢筋混凝土梁的动态响应以及弯曲、弯剪和剪切等不同的破坏形态,计算预报的结构动态响应和破坏形态与现场试验结果有较好的一致性。 相似文献
4.
通过5根嵌入不同张拉控制应力的碳纤维增强塑料预应力混凝土棱柱体(CFRP-PCPs)复合筋加固钢筋混凝土梁受弯试验,对比分析试验梁的裂缝分布与发展,得到最大裂缝宽度与平均裂缝宽度在静力荷载作用下的变化特性。结果表明: 嵌入CFRP-PCPs复合筋能有效的减少被加固钢筋混凝土梁的裂缝宽度和高度。在试验基础上,根据国家现行混凝土规范,对平均裂缝间距和最大裂缝宽度计算公式进行参数修正,建立了CFRP-PCPs复合筋嵌入加固钢筋混凝土梁最大裂缝宽度计算公式,计算值与试验值吻合较好。 相似文献
5.
为了探讨在冲击荷载作用下钢筋混凝土深梁的动力性能,利用大型落锤试验机对两组具有不同静载破坏特性的简支钢筋混凝土深梁进行了不同冲击速度下的动力性能试验研究,并考虑了二次冲击的影响。通过对高速摄像机所记录的各试件在冲击过程中裂缝的发生、发展直至试件破坏的全过程进行分析和不同荷载下裂缝形态差异的对比分析,表明不同的冲击速度下试件裂缝的发生、发展过程及裂缝形态表现出明显的差异,二次冲击下的主要裂缝基本遵循一次冲击产生的裂缝路径发展。详细分析了冲击力和跨中位移时程曲线以及冲击力-跨中位移曲线的特征,发现冲击力峰值与冲击速度、最大跨中位移和跨中残余位移与冲击速度在不发生严重剪切破坏时均满足近似线性关系。分析还表明,具有较好延性的深梁具有更好的抗冲击性能。最后,通过对比分析冲击力、支座反力和惯性力时程曲线,得出采用冲击力峰值和支座反力峰值作为深梁的抗冲击承载力均不准确的结论。 相似文献
6.
In conventional analysis and design procedures of reinforced concrete structures, the ability of concrete to resist tension
is neglected. Under cyclic loading, the tension-softening behavior of concrete influences its residual strength and subsequent
crack propagation. The stability and the residual strength of a cracked reinforced concrete member under fatigue loading,
depends on a number of factors such as, reinforcement ratio, specimen size, grade of concrete, fracture properties, and on
the tension-softening behavior of concrete. In this work, a method is proposed to assess the residual strength of reinforced
concrete beams subjected to cyclic loading. The crack extension resistance based approach is used for determining the condition
for unstable crack propagation. The effect of reinforcement is modeled as a closing force counteracting the effect of crack
opening produced by the external moment. The effect of percentage reinforcement and specimen size on the failure of reinforced
beams is studied. Finally, the residual strength of the beams are computed by including the softening behavior of concrete. 相似文献
7.
为了研究撞击荷载下钢筋混凝土柱的动力响应,该文基于有限元软件LS-DYNA建立了钢筋混凝土构件碰撞模拟分析的数值模型。对经典钢筋混凝土梁落锤试验进行数值模拟,分析表明该数值模型能够较好的模拟钢筋混凝土构件碰撞过程中的撞击力和变形发展。基于该模型该文研究了不同因素对刚体碰撞钢筋混凝土柱动力变形和撞击力的影响,包括撞击体速度、质量和形状,钢筋混凝土柱纵向配筋率、配箍率和混凝土轴心抗压强度以及材料应变率。分析表明钢筋混凝土柱在撞击作用下的破坏模式主要包括:局部损伤型、整体破坏型和局部破坏型。影响撞击力曲线变化的因素可分为三种:撞击体自身的因素,影响柱体刚度的因素和影响柱体材料强度的因素。各种因素对撞击力峰值、撞击力平台值和撞击持时分别具有不同的影响规律。这些规律将为建立建筑结构倒塌分析的简化撞击力模型提供参考。 相似文献
8.
N. Živaljić Ž. Nikolić H. Smoljanović A. Munjiza 《Materialwissenschaft und Werkstofftechnik》2019,50(5):599-610
This study presents the performance of a combined finite‐discrete element method for prediction of the structural response of reinforced concrete beams under impact loading. A combination of finite and discrete element methods enables the modelling of the concrete and the reinforcement before the concrete cracking, as well as a discontinuous nature of the concrete caused by fracture and fragmentation under high impact loading. Discretization of the concrete with triangular finite elements is coupled with one‐dimensional reinforcing bars embedded inside the concrete finite elements. The cracking in the concrete activates the joint elements used to simulate the non‐linear behavior of both concrete and reinforcement. Numerical analysis based on experimental test data has been carried out to simulate the main features of the reinforced concrete beams impacted by free‐falling drop‐weights. A high level of accuracy was demonstrated in various comparisons between the experimental tests and the analysis results, including peak displacement, crack pattern, damage level and failure modes of reinforced concrete beams. 相似文献
9.
试验研究、数值模拟地震作用范围内加载速率对钢筋混凝土梁影响。考虑混凝土强度、钢筋强度、剪跨比、加载速率及加载模式等对钢筋混凝土梁力学及变形性能影响;基于ABAQUS有限元软件建立钢筋混凝土梁计算模型,考虑钢筋、混凝土的率敏感性,对梁试件在不同工况下动态性能进行数值模拟;模拟结果与试验结果吻合较好。 相似文献
10.
An investigation of the shear fracture of plain and steel fibre reinforced concrete (SFRC) under impact loading was carried out on both unconfined and confined beams. It was found that confinement played a significant role on the behaviour and properties of both plain and SFRC beams.A shear mode of failure could be obtained with increasing end confinement stresses. End confined concrete beams were stronger and tougher than unconfined ones, as indicated by the increase in both peak load and fracture energy. However, they were found to be less stress rate sensitive than unconfined concrete beams. This was due to the change in the failure mode from flexure to shear with sufficient end confinement. Using end confinement appears to be a promising method for the study of shear fracture in concrete. 相似文献
11.
《Composites Part B》2003,34(4):327-338
This paper studies the problem of early concrete cover delamination and plate-end failure of reinforced concrete beams strengthened with externally bonded FRP-reinforcement. The accuracy of analytical models and finite element (FE) methods for predicting this type of failure is assessed against published experimental data. Two design approaches based on the maximum concrete tensile strength and the shear capacity of concrete beams were examined first and it was found that linear elastic analysis cannot accurately predict the brittle plate-end concrete failure. It was also found that the extent of strengthening that can be achieved is limited by the shear capacity of concrete beams. The FE analysis is used to examine the effects of internal tensile reinforcement on the magnitude of principal tensile stresses in the critical region. The non-linear behaviour of FRP-strengthened beams is also examined in the FE analysis using the smeared crack model for concrete which is shown to adequately display the inelastic deformation of the beam. Finally, the mixed mode of failure due to the combined shear and concrete cover delamination is addressed through modelling plate-end and shear crack discontinuities using the discrete crack approach. 相似文献
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13.
We propose a methodology to model complex fracture processes in reinforced concrete beams subjected to static loading. The discrete cohesive approach, accompanied by an insertion algorithm, is adopted and a modified dynamic relaxation method is chosen as an alternative solver. The concrete matrix and steel re-bars are modeled explicitly; the connection in between is represented by means of interface elements. Such elements allow for slip of re-bars and transmit forces to the matrix that may generate secondary cracking around the reinforcement. The methodology is validated against three-point bending tests on lightly reinforced concrete (LRC) beams. 相似文献
14.
In this paper, the effects of fatigue leading to crack formation and potential durability-bonding problems in reinforced concrete (RC) beams strengthened by carbon fiber reinforced polymer (CFRP) are studied. These effects are shown to cause CFRP de-bonding and loss of load carrying capabilities under static or low cyclic loading. Two series of RC beams with CFRP strengthening system are constructed and designed to fail in shear and flexural failures, respectively, under static loading. Repeated loading tests are conducted according to various loading ranges and loading cycles, and the experimentally determined fatigue properties are discussed. The test results show that it is possible to eliminate the debonding modes for longitudinally bonded CFRP using a U-wrap CFRP combination. The fatigue loads tested showed a significant effect on concrete rather than the CFRP system especially for the strengthened beams bearing a higher shear level. Moreover, the proposed equation to fit the testing S–N curve and the discussion of the stress in the component materials could be used for fatigue life predictions of beams with CFRP strengthening systems. 相似文献
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16.
The paper reports a study on the shear resistance of concrete beams reinforced with mild steel bars that are milled from scrap metal such as old vehicle parts and obsolete machinery. It has been previously reported that because the chemical compositions of carbon, sulphur and phosphorus in these reinforcing steel bars exceed the maximum allowable limits, the characteristic tensile strengths are too high and ductility too low for standard mild steel. Concrete beams reinforced with such bars to resist flexural tensile and shear stresses were tested under a two-point loading system to provide a central constant moment region and outer shear spans. Tested beams exhibited little deflection and very low ductility prior to collapse. Experimental failure loads for the beams averaged 123% of the theoretical failure load, which was generally governed by either shear or yielding of the tension steel. Shear failure was mostly initiated by diagonal tension cracks, followed by either crushing of the concrete, or splitting of the concrete over the longitudinal tensile bars near the supports. Failure of the beams was brittle and the post-cracking strain energy absorption averaged 357.9 Nm. At failure the maximum crack width in the beams ranged from 1.12 to 5.0 mm, the largest sizes forming in the diagonal shear cracks. 相似文献
17.
The behaviour of damaged concrete beams strengthened by externally bonded steel plates is experimentally investigated. The study includes an investigation of the mode of failure, including flexural failure and the interface separation of the steel plate. Simply supported beams under monotonically increasing loads are considered exclusively. A total of five plain concrete beams externally reinforced with bonded steel plates were tested under static loads to determine their strength and behaviour. The variables tested were the thickness of the external steel plate, length and location of the interfacial crack, and the degree of surface preparation of the steel plate. In all five beams the thickness of adhesive was kept constant. The results indicate that (i) the behaviour of a damaged open sandwich beam is similar to that of a singly reinforced concrete beam when no debonding occurs between the concrete and the adherent steel plate; (ii) when debonding occurs, the failure is sudden and at loads smaller than for a case where failure is either by yielding of steel or crushing of concrete; (iii) the case with an interfacial crack between the steel and the adhesive is more critical than the case when the interfacial crack is between the adhesive and the concrete; and (iv) the failure load and the mode of failure are dependent on the degree of surface preparation of the steel plate. Analytical investigation to predict the interfacial debonding is summarized, and the results suggest that linear elastic fracture mechanics is suited for predicting the failure load for open sandwich beams which fail by interface debonding. 相似文献
18.
利用杆径为75mm的SHPB试验装置对5种不同龄期下的混凝土分别进行了冲击压缩试验,系统了解了冲击载荷对不同龄期支护混凝土力学特性的影响。为了进行对比,利用INSTRON系统也进行了相应龄期下的静载压缩试验。试验研究表明:静载下混凝土强度、割线弹性模量随龄期增长而增长,其中强度增长主要集中在龄期7d以前,割线弹性模量增长则集中在龄期14d以后,而峰值应变随龄期增长整体上呈减小的趋势;动载下混凝土强度、峰值应变以及单位体积吸收能随着龄期增长而增长,在各个龄期都表现出对应变率具有一定的敏感性,其中不同龄期混凝土的动态强度随应变率增加呈现指数函数增长趋势。不同龄期的混凝土在动载下以拉伸破坏为主,静载下基本呈现剪切破坏形式。 相似文献
19.
探讨了加载速率及细观结构非均质性对混凝土破坏模式及宏观力学性能的影响。考虑到混凝土细观结构非均质性的影响,将混凝土看作由骨料和砂浆基质组成的两相复合材料。考虑材料的应变率效应,采用塑性损伤模型来描述砂浆基质的动态力学行为;由于骨料具有较高强度,假定不会产生断裂,设定为弹性体。对单边缺口的混凝土试件及L形试件在不同加载速率下的动态拉伸破坏模式进行了细观数值研究。数值结果表明:1) 混凝土动态破坏模式及裂纹扩展方向具有明显的加载速率相关性;2) 随着加载速率的提高,混凝土破坏模式从I-型模式到混合型模式转变;3) 混凝土细观结构越复杂,组分间相互作用越复杂,裂纹扩展路径越复杂,裂纹分支现象越为明显;4) 随着加载速率的提高,混凝土破坏时产生更多的裂纹扩展路径(分支裂纹),且损伤区域宽度增大,导致混凝土在高应变率作用下消耗更多的能量,可认为是混凝土材料动态强度提高的主要原因。 相似文献
20.
The shear-flexure response of steel fiber reinforced concrete (SFRC) beams was investigated.Thirty-six reinforced concrete beams with and without conventional shear reinforcement (stirrups) were tested under a four-point bending configuration to study the effectiveness of steel fibers on shear and flexural strengths, failure mechanisms, crack control, and ductility.The major factors considered were compressive strength (normal strength and high strength concrete up to 100 MPa), shear span-effective depth ratio (a/d = 1.5, 2.5, 3.5), and web reinforcement (none, stirrups and/or steel fibers).The response of RC beams was evaluated based on the results of crack patterns, load at first cracking, ultimate shear capacity, and failure modes.The experimental evidence showed that the addition of steel fibers improves the mechanical response, i.e., flexural and shear strengths and the ductility of the flexural members.Finally, the most recent code-based shear resistance predictions for SFRC beams were considered to discuss their reliability with respect to the experimental findings. The crack pattern predictions are also reviewed based on the major factors that affect the results. 相似文献