基于压磁效应的锈蚀钢筋应力状态检测试验研究

钢筋锈蚀是严重威胁结构安全的耐久性问题,基于压磁效应,研究均匀锈蚀和坑蚀两种锈蚀钢筋的应力状态与压磁场变化的关系。首先,采用通电加速锈蚀方法进行钢筋均匀锈蚀和点蚀试验;然后,通过轴向拉伸静载试验和疲劳加载试验,分析锈蚀钢筋的压磁信号特征。试验结果显示,磁感强度与钢筋应力状态之间具有较好的对应关系,屈服阶段不同锈蚀率下的钢筋磁感强度曲线有较明显区别,疲劳荷载作用下锈蚀钢筋的法向残余磁感强度和磁滞回环面积均呈现疲劳三阶段变化规律,可进一步运用于钢筋应力状态的检测中。     

锈蚀钢筋在疲劳荷载作用下压磁场分布研究

针对锈蚀钢筋的疲劳损伤与寿命评估中的难度大、精度低等问题,引入压磁检测技术,对锈蚀钢筋疲劳过程中的压磁场分布进行检测,从宏观与微观相结合的角度分析压磁场分布与疲劳损伤之间的联系。试验结果表明,锈蚀钢筋的压磁场分布能够反映疲劳损伤的演变规律,疲劳后期非线性特征加剧,锈蚀率及应力幅越大则变化越为明显,磁感强度值、磁场分布梯度、"反转"现象等均有助于进行疲劳损伤评价与寿命预测。研究结果可为压磁无损检测技术在钢筋混凝土结构中的应用提供依据。     

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。     

沿海地区混凝土结构的钢筋锈蚀与防护

由Cl^-引发的钢筋锈蚀是导致沿海地区混凝土结构破坏的主要因素。论述了Cl^-的侵入过程及其去钝机理,分析了钢筋的电化学锈蚀机理和锈蚀破坏的四个阶段,介绍了保护钢筋的基本措施与附加措施。     

北部湾地区海砂填料的动力特性分析

为研究北部湾地区海砂填料的动力特性，采用高级动态三轴测试系统开展循环荷载下的动三轴试验，研究不同围压及不同动应力幅值对海砂动力特性的影响规律。试验结果表明：轴向累计应变随围压增加而减小，围压150 kPa时振次10 000后应变仅为3%；随着动应力幅值的增大轴向累积应变随之增大，且达到破坏标准的时间越短。动弹性模量随着动应力幅值和围压的增加而增大，不同围压下动弹性模量随动应变的增加出现先骤减再略减后稳定的发展趋势，ε_d>0.3%后开始趋于稳定；不同动应力幅值下动弹性模量出现先增后减直至稳定的趋势，其中动应力幅值对动弹性模量有明显的影响，围压影响相对较小。孔压比随动应力幅值增加而减小，随围压增加而增加。     

跨海地铁盾构管片混凝土耐久性及寿命预测分析

根据某跨海地铁2号线的工况，确定跨海区间盾构管片的环境类别和作用等级，由各原材料氯离子含量计算推荐配合比混凝土氯离子含量，并对推荐配合比混凝土开展氯离子扩散系数试验和抗压强度试验。分别使用《海港工程高性能混凝土质量控制标准》(JTS 257-2—2012)、《混凝土结构耐久性评定标准》(CECS 220：2007)中的评定方法及多因素耦合评价(MFC)方法，基于钢筋开始锈蚀阶段t_i、混凝土保护层锈胀开裂阶段t_c、混凝土功能明显退化阶段t_d对混凝土结构使用年限t_e进行预测。结果表明，以上3种耐久性预测模型预测跨海地铁2号线推荐配合比使用年限的计算结果均大于100年，能够满足使用100年的要求。     

海港混凝土建筑中钢筋的外加电流阴极保护

一般认为,钢筋腐蚀是钢筋混凝土结构耐久性退化的最主要原因,它所造成的破坏和损失也是最严重的。在所有钢筋腐蚀中,建造于海洋环境中的各种港工设施的腐蚀占了很大一部分。挪威对700座港工混凝土结构调查结果表明,在浪溅区的梁板因钢筋腐蚀引起的严重破损占20%;沙特阿拉伯海滨地区42座混凝土框架结构的耐久性调查结果显示,74%的结构都有严重的钢筋腐蚀破坏;日本对103座码头调查后证明,服役20年以上的混凝土结构都有相当大的顺筋锈裂[1]。中国的钢筋腐蚀破坏也很严重,于20     

不同剪跨比下SFCB珊瑚混凝土梁受剪行为研究

珊瑚混凝土和钢-连续纤维筋（Steel-Fiber Composite Bar,SFCB）的结合可以解决岛礁工程建设中建筑材料短缺和筋材腐蚀的问题,研究珊瑚混凝土结构的力学性能,对完善珊瑚混凝土结构理论、推进珊瑚混凝土应用研究进展具有重要的工程实用意义。本文对5根SFCB珊瑚混凝土梁进行斜截面抗剪试验,详细介绍了不同剪跨比下SFCB珊瑚混凝土梁裂缝发展过程,研究了不同剪跨比对SFCB珊瑚混凝土梁破坏形态、纵筋应变、内芯钢筋应变和跨中挠度的影响,并与现有不同筋材珊瑚混凝土梁抗剪性能进行探讨。试验结果表明：相同配筋的梁在不同剪跨比下破坏形态可分为斜压、剪压和斜拉破坏。混凝土梁内部珊瑚骨料均被剪断,混凝土压溃现象不明显,SFCB与珊瑚混凝土粘结良好。纵筋应变与挠度发展分为3个不同的阶段,弯剪区中心与跨中纵筋应变变化规律不同。SFCB珊瑚混凝土梁与钢筋、纤维复材筋珊瑚混凝土梁抗剪性能差异明显,将SFCB应用于珊瑚混凝土梁可以发挥其优良性能。     

混凝土结构全寿命设计指标体系研究

考虑混凝土结构全寿命设计的多目标要求,提出结构全寿命设计指标由核心指标和绿色指标两个层次构成。将结构的性能指标、经济指标、时间指标作为全寿命设计的核心指标;将CO2排放量指标、用户满意度指标和可持续发展能力指标作为结构设计的绿色指标。提出混凝土结构全寿命设计需以结构的性能设计为中心,并将结构的性能指标分为风险性能指标、技术性能指标、材料性能指标三类。针对结构性能退化的特点,建议了有害介质扩散深度、钢筋锈蚀率、锈胀裂缝宽度作为耐久性的设计指标,同时定义了退化率指标γt用以反映结构性能退化的程度。在此基础上建立了结构全寿命设计的指标体系,为结构设计人员进行全寿命优化设计提供了理论依据。     

八所港矿砂码头混凝土腐蚀现状分析

针对海南八所港矿砂码头服役近30年的混凝土梁、柱和70年的甬道等结构腐蚀状况进行现场调研,发现钢筋混凝土结构出现钢筋锈蚀、混凝土剥落,部分混凝土严重破损。测量了其混凝土梁、柱、甬道等不同位置混凝土和铁锈中氯离子含量,分析了局部环境对氯离子分布的影响。根据调研结果总结分析了其破损原因。结果表明混凝土中氯离子分布呈现规律性变化,且铁锈中的氯离子含量远小于混凝土中氯离子含量。     

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.     

海水ORP对3C钢腐蚀行为的影响

研究了氧化还原电位(Oxidation Reduction Potential, ORP)对海水中碳钢腐蚀电化学特征的影响,应用动电位极化曲线法探讨了 ORP 与碳钢腐蚀行为之间的关系。结果表明,海水的 ORP 参数对碳钢腐蚀行为具有较大的影响,其中 O2/OH?电对的作用占主导,其他电对如 Fe3+/Fe2+也有一定的影响。随着海水 ORP 的增大,其氧化能力越强,碳钢腐蚀电流增大,腐蚀速度加快。水质相对稳定的开放性大洋海水中,可以考虑海水氧化还原电位在碳钢腐蚀速度预测评估中的应用。     

深海管道钢的腐蚀疲劳裂纹扩展特性试验研究

采用侧壁开槽型CT试样,分别在空气和3.5%NaCl溶液中进行腐蚀疲劳裂纹扩展试验,研究海底管道用钢X65在海水腐蚀环境下的腐蚀疲劳裂纹扩展特性。为保证试样既能满足腐蚀疲劳试验机的夹具要求,又可控制裂纹沿直线方向扩展,采用侧壁开槽技术对CT试样进行改进;利用有限元软件ABAQUS,建立三维模型,验证了对于侧壁开槽型CT试样,可以采用ASTM标准推荐的应力强度因子表达式对改进后CT试样开展数值计算。利用YYF-50腐蚀疲劳试验装置开展试验,试验结果表明:和惰性环境相比,腐蚀环境不仅会加速X65钢的裂纹扩展速率,还会降低腐蚀疲劳体系下裂纹扩展的门槛值;在腐蚀体系下存在裂纹扩展的稳定阶段,可采用Paris公式对其腐蚀疲劳裂纹扩展速率进行预测。     

Research on the Fatigue Flexural Performance of RC Beams Attacked by Salt Spray

The fatigue flexural performance of RC beams attacked by salt spray was studied. A testing method involving electro osmosis, electrical accelerated corrosion and salt spray was proposed. This corrosion process method effectively simulates real-world salt spray and fatigue loading exerted by RC components on sea bridges. Four RC beams that have different stress amplitudes were tested. It is found that deterioration by corrosion and fatigue loading reduces the fatigue life of the RC and decreases the ability of deformation. The fatigue life and deflection ability could be reduced by increasing the stress amplitude and the corrosion duration time. The test result demonstrates that this experimental method can couple corrosion deterioration and fatigue loading reasonably. This procedure may be applied to evaluate the fatigue life and concrete durability of RC components located in a natural salt spray environment.     

Ice Induced Low Temperature Fatigue Crack Propagation in Offshore Structural Steel A131

To investigate the low temperature fatigue crack propagation behavior of offshore structuralsteel A131 under random ice loading,three ice failure modes that are commonly present in the Bohai Gulfare simulated according to the vibration stress responses induced by real ice loading.The test data are pro-cessed by a universal software FCPUSL developed on the basis of the theory of fatigue crack propagationand statistics.The fundamental parameter controlling the fatigue crack propagation induced by randomice loading is determined to be the amplitude root mean square stress intensity factor K_(arm).The test resultsare presented on the crack propagation diagram where the crack growth rate da/dN is described as thefunction of K_(arm).It is evident that the ice failure modes have great influence on the fatigue crack propaga-tion behavior of the steel in ice-induced vibration.However,some of the experimental phenomena and testresults are hard to be physically explained at present.The work in this paper is an init     

Fatigue Crack Propagation in Steel A131 Under Ice Loading of Crushing,Bending and Buckling

Three types of ice loading, which are most commonly present when ice acts on structures, are chosen and simulated for use of fatigue crack propagation tests on offshore structural steel A131. The three types of ice categorized in accordance with the failure modes when acting on structures called crushing ice, bending ice, and buckling ice, respectively. This paper presents an experimental investigation on the fatigue crack propagation behavior of widely used high strength steel A131 for offshore jackets in the loading environment of ice crushing, bending, and buckling. The test results of fatigue crack propagation in steel A131 under these simulated ice loading at temperature 292K. are presented and analyzed in detail in this paper. The amplitude root mean square stress intensity factor is optimized to be the fundamental parameter of fatigue crack propagation for all types of ice loading histories. The results are also compared with constant amplitude fatigue crack propagation conclusions as in wave loa     

Mechanical test study on corroded marine high performance steel under cyclic loading

It is inevitable that marine structures suffer from corrosion and extreme cyclic loading. In order to study the influence of corrosion damage and cumulative fatigue damage on mechanical properties of marine steel, high performance steel NV-D36 was analyzed under electrochemical corrosion and cyclic loading. It was found that corrosion damage can reduce the elastic modulus, yield strength, ultimate stress and ultimate strain of steel NV-D36. And it was also found that cumulative fatigue damage will increase the ultimate stress of steel NV-D36 and reduce the ultimate strain of steel NV-D36. The effect of double damage on mechanical properties of steel NV-D36 was coupled with these two kinds of damage. The Chaboche model parameters calibrated under incremental cyclic loading scheme can exactly describe the stiffness and peak stress of steel NV-D36.     

Research on Flexural Behavior of Coral Aggregate Reinforced Concrete Beams

Through the flexural behavior test of coral aggregate reinforced concrete beams (CARCB) and ordinary Portland reinforced concrete beams (OPRCB), and based on the parameters of concrete types, concrete strength grades and reinforcement ratios, the crack development, failure mode, midspan deflection and flexural capacity were studied, the relationships of bending moment-midspan deflection, load-longitudinal tensile reinforcement strain, load-maximum crack width were established, and a calculation model for the flexural capacity of CARCB was suggested. The results showed that with the increase in the reinforcement ratio and concrete strength grade, the crack bending moment (M_cr) and ultimate bending moment (M_u) of CARCB gradually increased. The characteristics of CARCB and OPRCB are basically the same. Furthermore, through increasing the concrete strength grade and reinforcement ratio, M_cr/M_u could be increased to delay the cracking of CARCB. As the load increased, crack width (w) would also increase. At the beginning of the loading, w increased slowly. And then it increased rapidly when the load reached to the ultimate load, which then led to beam failure. Meanwhile, with a comprehensive consideration of the effects of steel corrosion on the loss of steel section and the decrease of steel yield strength, a more reasonable calculation model for the flexural capacity of CARCB was proposed.     

Fatigue Behavior of Unbonded Partially Prestressed Concrete Beams with Flexure

A study on fatigue behavior of unbonded partially prestressed concrete beams is presented.Model tests have been carried out in static loading and cyclic compressive loading on 15 beams withflexure.The ratios of the lower limit to the upper limit of fatigue load are 0.5 and 0.3 respectively,and thefrequencies of cyclic loading are 8 Hz and 4.5 Hz respectively.The experimental results of the strains of theconcrete and steel bars,the deflection of test beams,and the crack width of normal section are analyzed.According to statistics and analysis of test results,the corresponding calculation models are developed andpresented.