干湿交替下水分及氯离子在混凝土中传输的细观数值模拟

氯离子侵蚀已成为影响海洋及近海环境中混凝土结构耐久性的主要因素。考虑材料组成的非匀质特性,将混凝土看作由粗骨料、硬化水泥砂浆及二者界面过渡区组成的三相复合材料的细观层次方法,是开展物质传输过程研究的新途径。建立非饱和混凝土中氯离子传输的一维非线性对流扩散方程,并利用伽略金加权余数法给出了该方程的有限元形式,采用适用于物质传输的细观格构网络模型开展了水分及氯离子在非饱和混凝土中传输过程及分布规律研究,分析了干湿循环周期和循环机制对水分及氯离子传输性能的影响规律。数值计算结果表明,干湿交替下,相同的干燥时间,非饱和混凝土内水分及氯离子的侵入深度主要取决于湿润时间,而干燥时间和循环周期数则影响混凝土表层氯离子含量,并在混凝土表层10 mm处有浓度集中现象。     

粗骨料对混凝土界面过渡区氯离子扩散性能影响

通过室内干湿循环条件下混凝土中氯离子扩散试验,实测得到6种不同粗骨料体积分数的混凝土试件在不同时刻、不同深度处的氯离子浓度。经回归分析得到了不同粗骨料体积分数下混凝土的氯离子整体扩散系数,其值随粗骨料体积分数的增加而减小。同时,探讨了粗骨料的稀释、曲折和界面过渡区效应对混凝土中氯离子扩散的影响。在此基础上,同时考虑粗骨料体积分数Vf和界面过渡区厚度h的影响系数α(Vf,h),建立混凝土界面过渡区氯离子扩散系数模型,界面过渡区氯离子扩散系数随粗骨料体积分数的增大呈近乎线性地减小,随界面过渡区厚度的增大先显著减小而后逐渐趋于平稳。最后,将建立的界面过渡区氯离子扩散系数模型应用于混凝土中氯离子扩散的三维细观数模中。结果表明:细观数模计算结果与物理试验实测数据在变化趋势和数值大小上均能够吻合,可验证界面过渡区氯离子扩散系数模型的正确性与合理性。     

海洋潮汐浪溅区混凝土表面氯离子浓度计算模型

海洋混凝土结构的表面氯离子浓度反映了海洋氯化物环境的腐蚀作用强度,是海洋混凝土结构耐久性分析和定量设计的重要参数。本文依据国内外不同地区的大量自然暴露试验数据,通过数理统计和回归分析,确定了各种海洋环境条件下表面氯离子浓度的统计特征值,分析了海洋潮汐浪溅区混凝土中氯离子的传输机理和积聚规律,揭示了水胶比对混凝土表面氯离子浓度的影响规律,进而综合考虑水胶比、胶凝材料种类和时变特性等因素的影响,建立了海洋潮汐浪溅区混凝土表面氯离子浓度的改进计算模型。结合国内外各种表面氯离子浓度经验模型的预测结果和海洋自然暴露试验的实测数据,对比验证了所建立表面氯离子浓度计算模型的有效性和适用性,为海洋氯化物环境下混凝土结构的耐久性设计和服役寿命分析提供了重要边界条件。     

混凝土在海洋暴露过程中的氯离子渗透研究

将矿粉掺量0%~65%、粉煤灰掺量0%~30%混凝土置于海洋大气区、潮汐区2年,研究海洋不同区域、矿粉掺量、粉煤灰掺量对混凝土中氯离子渗透规律的影响。结果表明:混凝土在海洋环境下暴露2年,氯离子质量分数随着渗透深度的增加而减小,最后趋于稳定;海洋潮汐区腐蚀混凝土氯离子传输受扩散机制控制,而大气区腐蚀混凝土受到扩散和毛细吸附双重机制控制。随着腐蚀龄期的增加,混凝土中氯离子侵蚀深度增加,表面层氯离子浓度线性增加。潮汐区腐蚀混凝土的氯离子浓度高于大气区腐蚀混凝土,但其表观氯离子扩散系数小于大气区腐蚀混凝土。粉煤灰和矿粉掺量对于混凝土的抗氯离子渗透能力而言,其最优值分别为15%、30%。     

综合机制下氯离子扩散迁移模型及敏感性研究

缩短钢筋混凝土结构使用寿命的主要原因之一是氯离子对混凝土的扩散侵蚀。研究各种因素对氯离子扩散的影响,准确预测氯离子侵蚀程度是修复和加固钢筋混凝土结构的重要依据。作者基于Fick第二定律,推导出混凝土氯离子综合机制扩散迁移模型,确定了温度、时间、混凝土结合作用以及结构劣化效应与氯离子扩散系数之间的关系,并对各种影响机制的内在相关性和重要性进行了敏感性分析。经过工程实验验证,证明了改进后的氯离子扩散迁移模型的正确性和合理性。     

珊瑚混凝土在海洋环境中氯离子扩散实验

采用自然扩散法研究了珊瑚混凝土在海水环境中的氯离子扩散特性,探讨了养护龄期、暴露时间和环境差异性对珊瑚混凝土表观氯离子扩散系数的影响。结果表明:随着暴露时间的延长,珊瑚混凝土的表观氯离子扩散系数呈幂指数衰减规律;且延长养护龄期可降低珊瑚混凝土的表观氯离子扩散系数;随着强度等级增加,混凝土的表观氯离子扩散系数降低。我国实际海洋工程中珊瑚混凝土结构的表观氯离子扩散系数比实验室条件要提高3个数量级。因此,适当延长养护时间、提高强度等级有助于延长珊瑚混凝土结构在海洋环境的服役寿命。     

海洋环境下粉煤灰混凝土的抗冻性与抗氯离子渗透性的耦合

针对海洋环境条件,重点研究了粉煤灰混凝土的抗冻性和氯离子渗透性能的相互关系.试验分别研究了水胶比、粉煤灰等量取代水泥掺量大小、引气剂掺量等因素对抗冻性和抗氯离子渗透性能的影响,并与普通混凝土进行了对比.结果表明,粉煤灰不增加混凝土的抗海水冻融耐久性;粉煤灰增加混凝土的抗氯离子渗透性能,但是掺量超过30%,抗氯离子渗透性能下降;粉煤灰对混凝土抗冻性和抗氯离子渗透性的耦合影响在30%左右存在一个最佳掺量.为评估混凝土的抗冻性和氯离子扩散性的耦合性能,提出了新的评价方法--冻渗比(R值方法),并进行了试验验证.SEM和MIP微观分析与R值方法评价的结果是吻合的.     

海水环境下钢筋混凝土人工鱼礁的耐久性寿命预测

根据人工模拟的流动海水环境(流速约为0.15m/s)下的混凝土侵蚀试验测得的混凝土中氯离子质量分数,分别测定了腐蚀350,380,400d后混凝土的氯离子扩散系数,并计算和预测了混凝土人工鱼礁的耐久性寿命。研究结果表明:氯离子在混凝土人工鱼礁中的扩散规律基本上遵循Fick第二定律;钢筋混凝土人工鱼礁的耐久性寿命与保护层厚度的平方成正比;海水盐度对混凝土人工鱼礁的耐久性寿命影响较大。     

氯盐干湿环境下受弯横向裂缝对钢筋混凝土耐久性影响

为了研究持续开裂状态下横向裂缝对钢筋混凝土结构耐久性的影响特性,开展了8根受弯开裂钢筋混凝土梁构件的盐溶液干湿循环试验;借助无损检测技术和破损实测方法,分别对氯离子侵入量、钢筋半电池电位、腐蚀电流密度以及平均锈蚀率等进行了对比分析。研究结果表明,裂缝的存在将提高混凝土的渗透性,裂缝处及周围混凝土内的氯离子含量明显增大;对于一定裂缝分布状况的钢筋混凝土试验梁,内部钢筋的腐蚀电位、腐蚀电流密度以及平均锈蚀率均高于裂缝自愈及无裂缝的试验梁,并受到保护层厚度与裂缝开展状态的影响,其影响规律可用单位长度内的平均裂缝宽度与保护层厚度的比值wm/c来进行综合评价。综合试验结果,初步建议海洋干湿侵蚀环境下钢筋混凝土构件的最大裂缝宽度wmax宜小于0.003 3 c,相关结论可为海洋混凝土结构的耐久性设计提供参考。     

基于广义扩散方程海工混凝土结构耐久寿命概率评估方法

针对国内现有的氯离子侵蚀寿命预测模型存在的问题,提出了基于广义扩散方程(GDF)的海洋环境下混凝土结构耐久寿命预测的概率方法.以某海上混凝土工程原位取粉测试及室内快速试验为手段,获得不同环境分区的时变模型参数统计值.采用随机抽样方法,实现结构各部位混凝土使用寿命的概率预测.通过对模型参数的敏感性分析讨论了该模型的优点.最后,提出了周期性检测,不断更新模型参数的动态寿命评估思路.     

Influence of Reinforcement Mesh Configuration for Improvement of Concrete Durability

Steel bar in concrete structures under harsh environmental conditions, such as chlorine corrosion, seriously affects its service life. Bidirectional electromigration rehabilitation (BIEM) is a new method of repair technology for reinforced concrete structures in such chloride corrosion environments. By applying the BIEM, chloride ions can be removed from the concrete and the migrating corrosion inhibit can be moved to the steel surface. In conventional engineering, the concrete structure is often configured with a multi-layer steel mesh. However, the effect of the BIEM in such structures has not yet been investigated. In this paper, the relevant simulation test is carried out to study the migration law of chloride ions and the migrating corrosion inhibitor in a concrete specimen with complex steel mesh under different energizing modes. The results show that the efficiency of the BIEM increases 50% in both the monolayer steel mesh and the double-layer steel mesh. By using the single-sided BIEM, 87% of the chloride ions are removed from the steel surface. The different step modes can affect the chloride ion removal. The chloride ions within the range of the reinforcement protective cover are easier to be removed than those in the concrete between the two layers of steel mesh. However, the amount of migrating corrosion inhibitor is larger in the latter circumstances.     

Inhibitory effects of chloride ions on concrete sulfate attack in the marine adsorption environment

To study the inhibitory effects of chloride ions on concrete sulfate attack in the marine adsorption environment, a series of cubic concrete specimens was fabricated. These specimens were totally submerged or partially submerged in 10% Na₂SO₄ solutions with 0, 0.5, 2, and 5% NaCl concentration. Three specific aspects, namely, superficial phenomenon, compressive strength degradation, and X-ray fluorescence spectrometry analysis, were studied during 450 days of long-term exposure. Results showed that Na₂SO₄ solution had a strong corrosive effect on concrete in both the adsorption and submersion zones, especially in the adsorption zone. Chloride ions exerted inhibitory effects on concrete sulfate attack in both the submersion and adsorption zones, and higher concentration of chloride ions will produce stronger inhibitory effects. However, given the different inhibitory effects of chloride ions on concrete sulfate attack with different corrosion mechanisms, the inhibitory effect of the same chloride concentration on concrete sulfate attack was a little lower in the adsorption zone than in the submersion zone.     

养护期介入电迁阻锈保障混凝土耐久性试验研究

沿海地区氯盐侵蚀会对混凝土结构造成严重的耐久性问题,混凝土设计使用寿命难以保障。对于新建工程,若在自由水含量较高混凝土养护期进行电迁阻锈处理,则有利于电迁移性阻锈剂在钢筋周围聚集以达到更佳的阻锈效果。为此,针对两种电迁移性阻锈剂对处于氯盐侵蚀环境中的混凝土适用性展开研究,并测试了干湿循环前后混凝土内钢筋电化学参数、氯离子扩散特征及钢筋周围电迁移性阻锈剂含量研究两种电迁移性阻锈剂对混凝土耐久性保障的作用。结果表明,试验中养护期介入电迁阻锈后试件阻锈效果良好,经过干湿循环后钢筋腐蚀电位正向高于-162.6 m V,同时,钢筋附近出现明显的阻锈剂聚集现象,能保持钢筋的钝化状态。     

Durability of Concrete with Different Improvement Measures and Its Service Life Prediction in Island and Reef Environment

To solve the durability of island and reef concrete engineering in the harsh environment of high temperature, high salt, high humidity and windy, the strength grade of concrete and the type of corrosion inhibitor were used as the influence factors, while the relative dynamic elastic modulus was used as the evaluation index. In addition, the law and time variability of the deterioration of concrete, the size effect, environmental similarity and the service life model were studied. The results showed that improving the strength grade of concrete could improve the durability of concrete, and corrosion inhibitor could slightly improve the durability of concrete. Time-varying law of the deterioration of concrete conformed to the univariate quadratic polynomial. Combined with the concrete damage equivalent theory, a size effect model based on the relative dynamic elastic modulus was proposed and verified, and the size effect coefficient was also given. An environmental similarity model between simulated and practical island and reef environment was proposed. Combined with the reliability theory and the first order second moment method, a new service life model of concrete structure was proposed. The authors were convinced that the research will be advantageous to researchers.

     

氯离子侵蚀对钢筋混凝土构件抗力影响的研究

氯化物是钢筋混凝土结构在使用寿命期内可能遇到的一种最危险的侵蚀介质,混凝土中钢筋表面的氯离子浓度超过一定的限值,钢筋就可能会发生锈蚀,锈蚀的钢筋会导致混凝土构件的承载力下降.通过分析国内外研究者所做的大量工作,讨论了氯离子侵入引起的锈蚀钢筋混凝土构件的抗力计算方法,为氯化物环境条件下混凝土结构的耐久性评估提供参考.     

Experimental Evaluation of Recycled Aggregate Porous Concrete Piles for Soft Ground Improvement

The use of sand compaction pile or gravel compaction pile is nowadays a common approach for soft ground improvement. In this article, a recycled aggregate porous concrete pile has been developed by replacing natural aggregates with recycled aggregates to overcome issues related to bulging failure or reduced section geometries. Such issues may arise during installation and during the early stages of operation. In addition, the proposed approach utilizes recycled aggregates instead of natural materials. To investigate the applicability of the recycled aggregate porous concrete pile method as a ground improvement technique, a series of laboratory model consolidation tests was performed on soft clay soil reinforced with sand compaction pile, gravel compaction pile, and recycled aggregate porous concrete pile, respectively. The results indicated that the settlement reduction effect of recycled aggregate porous concrete pile was significantly higher than the sand compaction pile and gravel compaction pile methods. The stress sharing ratio from the experimental program showed good agreement with those calculated by elasticity theory. Comparative analyses of the recycled aggregate porous concrete pile versus sand compaction pile and gravel compaction pile approaches, under the same replacement area ratio and surcharge pressure, showed significantly improved consolidation time, settlement reduction, and stress sharing effect.