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1.
A Calculation Model for Corrosion Cracking in RC Structures 总被引:5,自引:0,他引:5
A novel calculation model is proposed aiming at the problem of concrete cover cracking induced by reinforcement corrosion. In this article, the relationship between the corrosion depth of the bar and the thickness of the rust layer is established. By deducing the radial displacement expression of concrete, the formula for corrosion depth and corrosion pressure before cracking is proposed. The crack depth of cover in accordance with the maximum corrosion pressure is deduced; furthermore, the corrosion depth and corrosion pressure at the cracking time are obtained. Finally, the theoretical model is validated by several experiments, and the calculated values agree well with the experiment results. 相似文献
2.
围岩作用下锚杆砂浆锈胀开裂过程分析 总被引:1,自引:0,他引:1
从砂浆锚杆锚固体自身的特点出发,借鉴钢筋混凝土结构锈胀开裂研究成果,对锚杆砂浆锈胀开裂过程进行了分析。考虑锚杆锈蚀体积膨胀过程,以填充系数表示砂浆开裂过程中锚杆锈蚀产物的损失,建立了锚杆锈蚀后砂浆内部位移模型,以弹性力学为基础,引入围岩参数影响系数概念,对锚杆锈蚀导致砂浆保护层开裂过程以及围岩参数对开裂过程的影响程度等进行了分析研究,并采用有限元分析方法对其进行了验证。理论分析结果表明,因锚杆锈蚀而导致的砂浆保护层开裂以及裂纹的扩展情况均与围岩特性密切相关,砂浆开裂后裂纹会经历一段稳定扩展过程,裂纹的最大稳定扩展半径随围岩参数影响系数的增加而增大,在合适的围岩参数条件下,裂纹可以一直稳定扩展致整个砂浆保护层外壁。有限元分析结论与理论结果一致。 相似文献
3.
Wen Chen Christian La Borderie Olivier Maurel Gilles Pijaudier‐Cabot Franck Rey‐Bethbeder 《国际地质力学数值与分析法杂志》2014,38(5):457-474
The results reported in this paper deal with the simulation of damage in cohesive geomaterials such as rocks or concrete subjected to dynamic loads. The practical objective is to stimulate the production of tight gas reservoirs with a technique that is an alternative to hydraulic fracturing. The principle is that when subjected to dynamic loads, cohesive materials such as concrete, rocks or ceramics exhibit distributed micro‐cracking as opposed to localised cracking observed under static loads. Hence, a low permeability rock containing gas trapped into occluded pores can be fragmented with the help of dynamic loads, and gas can be extracted in a much more efficient way compared with hydraulic fracturing, where only large macro cracks are formed with very few connections between occluded pores. At the stage of laboratory development of this technique, compressive underwater shock waves have been used to increase the intrinsic permeability of concrete specimens. In a previous study, pressure waves generated by pulsed arc electrohydraulic discharges in water were used in order to induce micro‐cracking and an increase of average permeability of concrete hollow cylinders subjected to confinement stresses (equivalent to geostatic stresses). We discuss here a 3‐D anisotropic constitutive model aimed at describing the dynamic response of these specimens. It is based on rate‐dependent continuum damage constitutive relations. Crack closure effects and damage‐induced anisotropy are included in the model. The directional growth of damage is related to the directional growth of material intrinsic permeability. Numerical simulations of damage induced by shock waves show good agreement with the experiments for various confinement levels of the specimens. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
4.
基于混凝土干湿循环试验和混凝土细观力学,对混凝土在海水侵蚀环境下力学性能的变化进行了研究。混凝土干湿循环试验方面,采用加速腐蚀试验。对混凝土试件和根据混凝土配比制成的砂浆试件进行0、10、20、30、40、50次干湿循环,利用大型混凝土静、动三轴试验系统,检测了海水侵蚀作用对混凝土抗压强度、抗拉强度、弹性模量及应力-应变关系的影响。依据混凝土细观力学理论,对混凝土试块进行了细观数值模拟,考虑了混凝土各组成相的非均匀性、材料性质按照Weibull分布来赋值。同时,为反映海水侵蚀作用对混凝土的影响,砂浆的强度和弹性模量均以砂浆干湿循环试验所得结果为准,最后建立了混凝土随干湿循环次数变化的抗压强度折减模型,抗拉强度折减模型和弹性模量的折减模型。 相似文献
5.
B. Ramesh Babu B.E. P.G.D.C.A. Ph.D. S. Maruthamuthu M.Sc. M.Phil. Ph.D. A. Rajasekar M.Sc. N. Muthukumar M.Sc. M.Phil. N. Palaniswamy M.Sc. Ph.D. 《International Journal of Environmental Science and Technology》2006,3(2):159-166
In the dairy industry mild steel is used as the construction material for the effluent treatment plants, pipelines, reinforcement in concrete structures etc. The steel exposed to the dairy effluent faces corrosion due to the microbes. In the present study the role of microbes in dairy effluent on the corrosion of mild steel has been investigated. Pseudomonas sp., Streptococcus sp., Micrococcus sp., Bacillus sp., Neisseria sp. and Lactobacillus sp. were identified in dairy effluent. Corrosion rate has been estimated by weight loss measurements and polarization technique. The Fourier transform infrared spectroscopy (FTIR) and X-ray diffractometer (XRD) studies were found helpful in investigating the chemical pathway leading to the formation of corrosion products on the mild steel during fermentation. Initiation of pitting corrosion was noticed on steel specimens by scanning electron microscope (SEM). A mechanism has been proposed for microbiologically influenced corrosion in dairy effluent. 相似文献
6.
为从根本上解决常规钢衬钢筋混凝土压力管道因运行期的裂缝过宽而带来的结构耐久性问题,采取将常规混凝土改性为高性能的钢纤维混凝土或钢纤维自应力混凝土的方法。以某水电站全背坝面管为原型,以1:10缩尺制作了钢衬钢筋钢纤维混凝土压力管道模型和钢衬钢筋钢纤维自应力混凝土压力管道模型。试验结果表明,改性为钢纤维混凝土的压力管道表现出很好的限裂能力,其初裂荷载有一定的提高,管道裂缝宽度显著下降;改性为钢纤维自应力混凝土的压力管道表现出很好的抗裂能力,管道的初裂荷载有了大幅度的提高,钢材的性能也得到了较充分的利用。模型试验的结果显示了改性钢衬钢筋混凝土压力管道良好的应用前景。 相似文献
7.
针对地下工程中锚杆防腐性能存在的不足,介绍了多重防腐锚杆的构造和防腐机制。通过模拟不同的腐蚀环境,进行双重和多重防腐锚杆的抗腐蚀性试验研究,观察腐蚀后锚杆的表观变化并测试其抗拔力,分析比较两者锚筋与水泥砂浆之间的粘结强度与滑移位移的关系。分析结果表明:多重防腐锚杆由于在水泥浆中设置了套管,在不同腐蚀环境中其拉拔力始终高于双重防腐锚杆,且随时间更加明显;硫酸盐的结晶作用和腐蚀因子间的牵制效应会使防腐锚杆拉拔力有短暂的提高;多重防腐锚杆产生相同滑移位移对应的粘结强度更大,粘结强度超过极值后的残余强度高于双重防腐锚杆。以上成果能够用于地下结构中防腐锚杆的设计和后期服役期间的耐久性分析,为实际工程中防腐锚杆的抗腐蚀性能研究提供了宝贵的基础资料。 相似文献
8.
文章通过相似模型试验,研究了钢纤维混凝土材料应用于隧道支护结构的力学行为。试验通过千斤顶逐级加载的方式,得到支护结构整个力学行为过程中与围岩之间的接触压力、变形发展规律及其裂后承载能力。通过与传统素混凝土支护结构相比,钢纤维混凝土具有良好的承载和变形能力,是一种理想的柔性支护材料。 相似文献
9.
地下结构混凝土渗透特性试验研究 总被引:1,自引:0,他引:1
根据地下结构承受水压及构件存在裂缝的情况,采用自制混凝土试块模具、自制可控开裂混凝土装置、自制可控压力水头装置、裂缝测宽仪组成的试验系统,在不同水压、氯离子浓度、裂缝宽度以及浸泡时间等工况下进行了开裂混凝土渗透特性试验。试验结果表明:当其他试验条件相同时,压力水头下与自然浸泡状态下的氯离子运移规律有明显的差异,压力水头作用下混凝土各层自由氯离子含量均有明显的提高;存在控制氯离子浸泡溶液运移的裂缝宽度阈值,且该阈值不受水头压力大小的影响。该试验方法可作为同类研究的借鉴和参考。 相似文献
10.
自加筋土出现以来,由面板、筋材、填土组成的加筋土挡墙被广泛研究并应于道路、铁路等土建工程中。填土的压实对加筋土挡墙的变形、土压力及筋材拉力等影响显著。为研究填土相对密实度对加筋土挡墙的影响,进行了3组不同相对密实度的离心模型试验,通过试验数据分析得到以下结论:相对密实度越大,墙体变形越小,特别是加载期变形量;压实可增大面板附近土体约束,使水平土压力大于设计值;试验挡墙设计较保守,筋材填土界面摩擦系数小于设计值;筋材面板之间连接拉力分析表明,连接拉力实测值小于测试土压力。 相似文献
11.
Jianwen Pan Y. T. Feng Feng Jin Yanjie Xu Qicheng Sun Chuhan Zhang D. R. J. Owen 《国际地质力学数值与分析法杂志》2013,37(16):2690-2705
A meso‐scale particle model is presented to simulate the expansion of concrete subjected to alkali‐aggregate reaction (AAR) and to analyze the AAR‐induced degradation of the mechanical properties. It is the first attempt to evaluate the deterioration mechanism due to AAR using the discrete‐element method. A three‐phase meso‐scale model for concrete composed of aggregates, mortar and the interface is established with the combination of a pre‐processing approach and the particle flow code, PFC2D. A homogeneous aggregate expansion approach is applied to model the AAR expansion. Uniaxial compression tests are conducted for the AAR‐affected concrete to examine the effects on the mechanical properties. Two specimens with different aggregate sizes are analyzed to consider the effects of aggregate size on AAR. The results show that the meso‐scale particle model is valid to predict the expansion and the internal micro‐cracking patterns caused by AAR. The two different specimens exhibit similar behavior. The Young's modulus and compressive strength are significantly reduced with the increase of AAR expansion. The shape of the stress–strain curves obtained from the compression tests clearly reflects the influence of internal micro‐cracks: an increased nonlinearity before the peak loading and a more gradual softening for more severely affected specimens. Similar macroscopic failure patterns of the specimens under compression are observed in terms of diagonal macroscopic cracks splitting the specimen into several triangular pieces, whereas localized micro‐cracks forming in slightly affected specimens are different from branching and diffusing cracks in severely affected ones, demonstrating different failure mechanisms. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
12.
Methods are presented for analysing earth structures subjected to tensile stresses that may produce cracking. The linear elastic fracture mechanics approach is emphasized. Methods of solution are proposed for cracking of a clay layer above the water table due to desiccation; cracking of layered earth structures subjected to external loads; cracking of clay caps for landfills due to differential settlement; and radial cracking in pressurized boreholes. Causes and mechanisms of cracking are discussed for each problem and models pertinent to each problem are proposed. Solutions have been developed by synthesizing analytical and numerical methods. Published experimental data have been incorporated in modelling matric suction and cracked beams on elastic foundations. Finite element analyses were employed to obtain solutions for cracking due to differential settlement and radial cracking in boreholes. The solutions presented herein can be used to assess the soundness of existing structures or to assess the risk of cracking for the design of new structures. 相似文献
13.
Evaluation of Reinforced Concrete Design for an Underground Outlet Manifold in Shanxi Yellow River Diversion Project 总被引:1,自引:0,他引:1
Summary In order to verify the design feasibility of the reinforced concrete lining of the outlet manifold in Shanxi Yellow River Diversion Project (YRDP), field investigations on rock mass deformability, in situ stress and hydraulic jacking measurements have been carried out. Based on the results obtained, 3-D FEM numerical analyses have been performed to calculate the stress distribution in a reinforced concrete lining under internal and external water pressure. Furthermore, the initial designed shape and steel ratio of concrete have been modified to satisfy the requirements for the limit crack width design criteria in China and decrease the tensile stress level in concrete. The new steel ratio of reinforced concrete has been calculated on the basis of the numerical results considering the modified shape of the outlet manifold. Both the owner and designer of YRDP have adopted the steel ratio of concrete in the working design and construction of the outlet manifold. 相似文献
14.
The calculation of stresses induced inside the soil mass by the foundation loads forms an essential step in most of the geotechnical engineering problems dealing with the probable behaviour of foundations. The distribution of stresses on horizontal planes containing reinforcements at various depths is required in the analysis and design of reinforced soil foundations. An accurate evaluation of contact pressure distribution at the interface is a prerequisite for the computation of stresses inside the soil mass. Of the several approaches the elastic-plastic approach of computing the contact pressure distribution appears to be reasonable. Using this approach non-dimensional equations have been derived for calculating the contact pressure distribution beneath rigid circular foundations on sands. The contact pressure distribution so derived has been used for computing the stresses at various points using elastic theory. The results have been graphically presented and are compared with Boussinesq's distribution for uniform contact pressure. 相似文献
15.
When impact loaded, concrete is submitted to high triaxial stresses. The experimental response of concrete under quasi‐static triaxial compression is studied using a triaxial press capable of applying a mean pressure greater than 1 GPa on cylindrical samples measuring 7 cm in diameter and 14 cm high. A numerical analysis of these previous experiments is performed herein at a mesoscopic scale. Concrete is modelled as a biphasic material consisting of a mortar (cement paste and fine aggregates) and roughly spherical aggregates (with a diameter exceeding 2 mm) whose characteristics are applied on a regular cubic finite element mesh. A damage‐plasticity model is then used to model the behaviour of mortar. An identification of model parameters on mortar samples and the subsequent comparison between numerical and experimental tests will be presented for hydrostatic and triaxial compression. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
16.
采用模型试验和数值模拟方法,研究单轴压缩载荷下带裂纹直墙拱形隧道在不同的裂纹面与隧道垂直边墙之间的夹角 时围岩损伤破坏规律。试验采用水泥砂浆制作成具有不同夹角 的直墙拱形隧道模型,养护30 d后进行加载。数值模拟采用混凝土损伤塑性模型,计算出隧道周边各点的应力和裂纹尖端的应力强度因子,与模型试验结果吻合较好。结果表明,拱肩处的裂纹会降低隧道的整体稳定性及强度,在裂纹尖端及侧壁产生很大的应力集中,但随着 角度的变化,强度降低的程度有所不同;当 = 60?和 = 130?时,裂纹对其整体稳定性及强度的影响最大,其裂纹尖端的应力集中现象最为明显,而且破坏应力峰值仅为无裂纹模型的40.9%和41.8%。 相似文献
17.
近年来,玻璃钢夹砂管在(管工程中的到越来越广泛的应用,以广州市某污水工程顶管施工为例,介绍了玻璃钢夹砂管在流砂地层的应用,以及在顶管施工中所要注意的事项和应对措施,以供工程技术人员和同类工程参考。 相似文献
18.
A common decay scenario in old and new buildings was simulated: the effects on masonry structures of salt efflorescence or subefflorescence produced by the rise of saline solution. Eight different types of masonry wall each made up of a combination of different construction materials (brick, calcarenite and four types of mortar were combined as follows: pure lime mortar, mortar + air entraining agent, mortar + pozzolana, mortar + air entraining agent + pozzolana) have been tested. These materials have different textures (strong anisotropy in brick, irregular-shaped pores in calcarenite, retraction fissures or rounded pores in mortars which also show a reduction of porosity along the contact area with the stone), different hydric behaviours (under total immersion brick + mortar specimens absorb water faster than calcarenite + mortar specimens) and different pore size distribution (brick shows unimodal pore distribution, whereas calcarenite and mortars are bimodal). In the salt weathering test, mortars interlayered with masonry blocks did not act as sacrificial layers. In fact, they allowed salts to rise through them and crystallize on the brick or calcarenite pieces causing the masonry structure to decay. Only the addition of an air-entraining agent partially hindered the capillary rise of the salt-laden solutions. 相似文献
19.
Carbonation-induced corrosion of the steel reinforcement is the major deterioration factor of the RC infrastructures in urban areas. Carbonation progress in concrete is influenced by the exposure and environmental conditions prevailing at each area. Therefore, the rate of deterioration due to carbonation varies at different areas. Field measurements can quantify this carbonation progress for specific structures and areas. However, the scattered nature of individual field data offers little information to be considered for the assessment of existing structures or the design of new structures. This study aims to bridge this gap and shows that individual field data can be combined to characterise an area using GIS mapping tools. A generated map can depict the variability of carbonation progress with the geographical location. Measurements of the carbonation depth of several buildings at different locations in the Limassol district have been provided by a construction laboratory. Such information can be used to depict the carbonation progress on each structure through the calculation of the carbonation factor and then portray its value using mapping techniques. The result is a corrosion risk map of the Limassol district depicting the variability of carbonation progress with geographical locations. This can be used by engineers and managing authorities as a prediction tool for the initiation of carbonation-induced corrosion in existing structures and also at design stage to set the durability requirements of the concrete cover depth. 相似文献
20.
加筋垫层由于具有诸多优点而被广泛应用于反复加卸载作用下公路、铁路路基等工程构筑物中。为研究加卸载作用下加筋垫层结构的变形特征,针对加筋与未加筋垫层2组模型,开展了单次加卸载静力试验。测试并获得了不同荷载作用下垫层竖向变形、筋材应变变化规律,对比分析了加筋与未加筋垫层的变形特征,并从能量角度对加筋垫层工作机制进行了探讨。结果表明:与未加筋情况相比,荷载作用下加筋垫层(加载板处)的沉降变形和残余变形更小。加筋后垫层表面(加载板范围外)的竖向变形及其受影响范围均增大,且在卸载过程中垫层表面竖向变形的水平分布曲线特征由“凹”型变为“凸”型,其加卸载曲线呈“∞”型。格宾网筋材应变沿横向呈现非均匀分布特点,其最大应变小于0.06%,筋材始终处于弹性变形状态。加筋垫层中筋材具有储存、释放及横向传递应变能效应,这使得加筋后垫层具有更好的承载能力与弹性性能,进而可降低循环加卸载作用下垫层的塑性变形或累计变形。 相似文献