Anti-cracking Property of EVA-modified Polypropylene Fiber-reinforced Concrete Under Thermal-cooling Cycling Curing

In order to investigate the synergistic effect of re-dispersible powder-ethylene-vinyl acetate copolymer(EVA) and polypropylene fiber on the crack resistance of concrete under thermal fatigue loading, the compressive strength, ultimate tensile strength, ultimate tensile strain and tensile modulus of elasticity were tested. In addition, ultrasonic method and scanning electron microscope analysis were used to explain the microstructure mechanism. The results show that polypropylene fiberreinforced concrete presents a better performance on crack resistance than ordinary concrete, and the synergism of EVA and polypropylene fiber can improve the anti-cracking ability of concrete further.

Formulating for Innovative Self-Compacting Concrete with Low Energy Super-Sulfated Cement Used for Sustainability Development

This study proposed a new way to formulate a low energy super-sulfated cement (SSC) which can be used to produce self-compacting concrete (SCC) with high compressive strength and durability in terms of chloride penetration resistance. This innovative SSC, different from the traditional SSC, was purely produced with a ternary mixture of three industrial by-products of ground granulated blast furnace slag, low calcium Class F fly ash and circulating fluidized bed combustion (CFBC) fly ash and was denoted as SFC-SSC (super-sulfated cement made by mixture of slag, Class F fly ash and CFBC fly ash). Experimental results showed that the combination of a fixed amount of 15 wt.% of CFBC fly ash with various ratios of Class F fly ash to slag could be used to produce the hardened SCCs with high 28-day compressive strengths (41.8 - 65.6 MPa). Addition of Class F fly ash led to the resulting SCCs with lowered price and preferable engineering properties, and thus it was considered as state-of-the-art method to drive such type of concrete towards sustainable construction materials.

Influence of MB-value of Manufactured Sand on the Shrinkage and Cracking of High Strength Concrete

The relation between methylene blue （MB） value of MS and its limestone dust content and clay content was investigated. The effects of MB value ranging from 0.35 to 2.5 on the workability of fresh concrete and crack propagation characteristics at the age of 24 hours, and effects on the mechanical properties, dry shrinkage of the harden concrete were tested. The experimental results show that the MB value is not related with the limestone dust content of MS, but in direct proportion to clay content. With the increase of MB value, the concrete workability decreases, and the flexural strength and 7 d compressive strength reduce markedly, whearas the 28 d compressive strength is not affected. When the MB-value is less than or equal to 1.35, the change of the MB-value has a little influence on early plastic cracking and dry shrinkage property of concrete, but when the MB-value is more than 1.35, the tendency of plastic cracking and dry shrinkage is remarkable.

Effects of Stone Cutting Powder (Al-Khamkha) on the Properties of Self-Compacting Concrete

Most of the construction materials research now concerns on investigation of construction materials that is locally produced at a rate and cost compatible with the pace of construction. The present paper is concerned with investigation of fresh and hardened properties of self-compacting concrete (SCC) produced from local available materials in JORDAN. The produced SCC contains the local stone cut waste powder which is called Al-KHAMKHA in JORDAN with different replacement of (0%, 10%, and 25%) of fine silica aggregate;?the study also investigatesthe effects of SP33 super?plasticizer which is used by different doses (1%, 1.5% and 2%) for cement. The slump flow and the compressive strength of SCC were studied and the experimental results indicate the possibility of using Al-KHAMKHA in the production of SCC as the results showed that the compressive strength of the SCC with 10 % replacement by al-khamkha together with 1% SP33?super plasticizer was higher compared to pure SCC without al-khamkha;?the results also showed that as al-khamkha content increased the slump flow decreased.

Self Compacting Concrete under Local Conditions

This paper presents the results of experimental investigations on mechanical properties of self compacting concrete made with local materials. The used materials were cement, aggregate and super plasticizer. Limestone powder, silica fume and blast furnace slag have been used as adjuvant in self compacting concrete (SCC). Self compacting concrete properties in fresh and hardened state are characterized and analyzed. The test results indicate the possibility to manufacture SCC with good rheological and mechanical properties using local materials.

乌兹别克斯坦9度区某超高层建筑结构设计与优化

对于9度设防地区的超高层建筑,其结构设计基本由地震作用控制,因此抗震设计尤为重要。建筑消能减震技术可在提高结构地震安全储备的同时,降低整体工程造价,是结构优化设计的有效措施。对位于9度区的超高层建筑进行了结构方案选型对比、结构方案优化、减震设计方案比选、剪力墙内嵌钢板优化。结果显示,钢骨混凝土框架⁃核心筒方案相对于钢框架⁃支撑方案具备更高的成本优势;框架⁃核心筒方案可通过精细化设计作进一步优化;在此基础上,对钢骨混凝土框架⁃核心筒方案采用两种消能减震方案进行比选,结果表明,采用黏滞阻尼器方案的结构抗震性能明显优于采用黏滞阻尼墙方案;最后通过增大剪力墙竖向分布钢筋配筋率,对低区核心筒墙肢中的内嵌钢板进行了优化。

INITIAL BINDING CAPACTIES OF CHLORIDE ION OF COMPONENTS IN HIGH-PERFORMANCE CONCRETE

An investigation is reported on the influence of different components of high performance concrete (HPC) on the initial binding capacities (IBC) of chloride ion. The testing results demonstrate that cement has the largest IBC, and the relative binding ratio is as high as 30% of total ion amount. Among the mineral admixtures, fly ash has the largest IBC of chloride ion. The IBC of silica fume is about 14.4%, which is smaller than that of fly ash. The IBC of refined ground blast-furnace slag (microslag) is abnormal due to the influence of sulfate ion contained. The addition of superplasticizer and corrosion inhibitor containing calcium nitrite weakens the IBC of mixtures. The fluidity and pore-filling effect of mineral admixtures are studied with paste samples with WIC ratio of 0.3. The influence mechanism of various components in high-performance concrete in IBC is studied further through SEM and Mercury Instrusion Porosimetry tests with paste samples at the age of 3 days.

季冻区纳米SiO_(2)改性SAP路面混凝土的耐磨性

为解决季冻区高吸水性树脂(SAP)路面混凝土耐磨性下降的问题,通过耐磨性试验探索了纳米SiO_(2)(NS)对季冻区SAP路面混凝土磨损量的影响;采用压汞仪(MIP)和扫描电镜(SEM)研究了冻融前后NS改性SAP路面混凝土孔结构和微观形貌的变化,从细微观角度阐述其耐磨性的提升机理;并对其微观结构与耐磨性进行相关性分析。研究结果表明,经150次冻融循环之后,掺有3%NS的改性SAP路面混凝土在200 N磨耗负荷下的磨损量较基准下降30.92%,20~50nm的孔占比上升,50~200nm的孔占比下降,总孔隙量和孔隙率减少,界面区裂缝数量和尺寸大幅降低,内部密实性程度显著提高,耐磨性明显增强。

特大桥高墩施工技术分析

为了深入研究特大桥高墩施工技术,以银昆高速太彭段LJ08-2标段为例,重点分析了特大桥高墩施工的实施要点和成效。针对特大桥高墩施工的关键环节和难点,采取了有效的施工措施方法。实践表明,采用大块定型钢模板(翻模)作为特大桥高墩成型的手段,同时把控好模板吊装及混凝土浇筑,并做好高墩线形控制,能够高效完成特大桥高墩的施工并实现质量验收100%的目标,为企业节约成本12.48万元,既保证了特大桥高墩的施工进度和安全,也实现了良好的经济效益和社会效益,对类似工程具有参考价值和应用指导意义。

上海浦东足球场整体模型分析与计算

上海浦东足球场整体结构由一层地下室结构、地上钢结构看台和大跨度钢结构屋盖三部分组成,地上看台结构采用钢框架+屈曲约束支撑体系,屋盖采用轮辐式张拉体系。屋盖和下部结构单独分析,不能体现上下结构之间的相互影响。为更可靠合理进行整体结构设计,采用了整体模型分析作为单体模型分析的重要且必要的补充。整体模型分析工作主要包括多遇地震、设防地震下的弹性分析,罕遇地震下的弹塑性时程分析,以及超长混凝土结构应力分析。结果表明:单体分析存在局限性,整体模型的足球场结构受力安全。

西咸自由贸易企业服务中心超高层建筑结构设计

西咸自由贸易企业服务中心地处高烈度区,与渭河断裂之间的距离约2km,应考虑近场效应。项目采用钢管混凝土框架(钢梁)+钢筋混凝土核心筒混合结构,存在扭转不规则、刚度突变、有加强层和通高层等不规则项。为提高结构刚度,在避难层设置了2道伸臂桁架加强层。采用YJK、MIDAS Building软件进行了小震弹性对比分析,采用YJK进行了小震弹性时程分析。根据设定的抗震性能目标,对主体结构主要部位和关键构件进行了性能化设计;采用SAUSAGE软件进行了罕遇地震作用下的动力弹塑性时程分析;采用ANSYS软件对伸臂桁架关键节点进行有限元分析。结果表明:各项指标均符合设计要求,结构及构件均达到预设性能目标,结构体系合理,安全可靠。本工程部分墙体为钢板混凝土剪力墙,设计中应注重钢板混凝土剪力墙的构造措施,施工中应采取措施控制钢板变形。

泵送碱式硫酸镁水泥混凝土的制备和性能

碱式硫酸镁水泥混凝土是新开发出来不久的混凝土材料,具有高抗拉强度、抗冲击和耐腐蚀等优点,但由于其较小的塌落度,限制了其工程应用。本文试验研究了不同掺量萘系减水剂对泵送碱式硫酸镁水泥混凝土塌落度和强度的影响,确定强度等级C30、C40、C50和C60的萘系高效减水剂适宜掺量分别为2.0%、1.2%、1.5%和1.8%。分别研究了掺粉煤灰型和矿渣型泵送碱式硫酸镁水泥混凝土基本力学性能及在海水浸泡、淡水浸泡1280 d后的强度保留率并进行机理分析,发现粉煤灰型泵送碱式硫酸镁水泥混凝土抗海水腐蚀性较好,适合东部沿海地区应用;随着海水暴露时间的延长,泵送碱式硫酸镁水泥混凝土的Df值呈现幂函数的降低关系。本文还对大气中暴露2400 d的钢筋泵送碱式硫酸镁水泥混凝土小梁进行观测,未有锈涨现象。本文为碱式硫酸镁水泥混凝土在工程领域的应用具有重大意义。

型钢混凝土柱配钢形式研究现状与展望

为促进型钢混凝土在超高层建筑中的应用,在介绍巨型柱在超高层建筑应用状况的基础上,从实腹式和空腹式两种配钢形式论述了型钢混凝土柱抗震性能研究现状。分析表明,相比空腹式配钢形式,实腹式能更稳定地发挥型钢混凝土的性能。但部分研究表明,合理的截面设计能提高空腹式型钢混凝土型钢与混凝土协同工作效果。尚需研究具有普适性的型钢混凝土承载力理论计算方法和抗震构造措施,以发展具有施工便捷性和良好抗震性能的钢–混凝土组合构件。

超吸水聚合物对碱激发泡沫混凝土性能的影响

【目的】研究超吸水聚合物(super‐absorbent polymer,SAP)对提升以矿渣和再生微粉为主要材料的碱激发泡沫混凝土性能的影响。【方法】调节SAP预吸NaOH溶液的质量分数和SAP掺量(质量分数,下同),考察其对碱激发泡沫混凝土的流动性、吸水率、凝结时间、导热系数、孔隙结构及强度的影响;借助扫描电子显微镜和傅里叶红外光谱分析,从微观角度揭示SAP对泡沫混凝土性能影响机制。【结果】随着SAP掺量的增加,碱激发泡沫混凝土的流动度、凝结时间和导热系数呈下降趋势,但吸水率增大。SAP的掺入会导致碱激发泡沫混凝土孔隙率增大和孔隙分布的改变,掺入预吸水和预吸质量分数为0.4%的NaOH溶液的SAP后,增大了碱激发泡沫混凝土中孔隙直径大于550μm的孔隙比例;掺入预吸质量分数为0.9%的NaOH溶液的SAP后,则增大了碱激发泡沫混凝土中孔隙直径小于250μm的孔隙比例。适量的掺入SAP可以显著改善碱激发泡沫混凝土的抗压、抗折强度,当SAP预吸质量分数为0.4%的NaOH溶液且掺量为0.10%时,碱激发泡沫混凝土的抗压、抗折强度最高。【结论】SAP预吸NaOH溶液处理后,可以明显改善碱激发泡沫混凝土的工作性能、孔隙结构和力学性能。

某超高层项目钢管混凝土组合柱应用

某超高层项目荷载较大,导致框架柱截面较大,严重影响建筑空间使用。采用钢管混凝土组合柱,和型钢混凝土柱相比,标准层每根柱节约建筑有效使用面积1.5~1.8m^(2),结构主体成本节约近1000万元。提出了对钢管进行开孔的梁柱节点做法并分析五种不同节点方案,采用大型通用有限元软件ABAQUS进行仿真分析,充分考虑框架梁对节点的约束作用,得到五种节点方案的极限承载力及钢管的最大应力,结果表明采用钢管开孔的梁柱节点做法可行,并得到最合理的开孔形式;分别对7种不同箍筋形式进行受力性能分析,并考虑实际施工因素,得到最为合理的箍筋设置形式。

SAP和聚丙烯纤维双掺对混凝土抗压强度及抗渗性能的影响

隧道等地下工程混凝土主体结构渗漏为常见质量问题,严重影响结构的安全、正常使用功能及耐久性,因此混凝土的抗渗性能成为研究焦点。采用双掺SAP和聚丙烯纤维提高混凝土的抗渗性能,在混凝土中分别掺入质量比为胶凝材料0.1%,0.3%,0.5%的SAP,并同时分别加入1,2,3kg/m3的聚丙烯纤维,进行抗压与抗渗试验。结果表明:单掺0.1%~0.3%SAP时几乎不影响混凝土的抗压强度,但掺量为0.5%时,抗压强度会显著降低;双掺0.1%SAP和0~2kg/m3聚丙烯纤维可略微提升混凝土抗压强度,并且显著改善其抗渗性能;经对比,掺入0.1%~0.3%SAP和0~2kg/m3聚丙烯纤维时,可保证混凝土的抗压强度,提高抗渗性能,有效降低混凝土的渗水风险。

穿湖隧道超大尺度混凝土施工期的温度效应

穿湖隧道对混凝土的防渗要求很高,而混凝土的温度效应与其开裂息息相关.采用高性能双光栅温度-应变式传感器对隧道浇筑过程中混凝土的温度以及应变进行监测,分析了其变化规律.对混凝土浇筑完成后的现场情况进行了调研,发现侧墙存在裂缝且引起了渗漏.依据现场施工情况,运用有限元法对浇筑的隧道进行模拟,将数值模拟结果与现场监测数据进行对比,验证了数值模拟结果的准确性,并对影响混凝土内外温差的因素进行了参数分析.研究结果表明:混凝土入模温度越高,其内外温差就越大;入模温度升高10℃,内外温差增加1.46℃;在夏季施工时,应注意对混凝土原料进行降温处理,保证混凝土入模温度小于30℃;环境温度下降越多,混凝土内外温差就越大;环境温度下降20℃,内外温差增加6.38℃;当环境温度降低时,应注意采取保温措施;当养护过程中需要进行保温时,建议采用木模板进行养护,但拆模时间不宜早于6 d,否则会导致混凝土表面温度迅速下降,内外温差急剧增大.

超大口径超长距离排海顶管施工的管控要点

结合嘉兴市污水处理扩容工程外排三期(排海管扩容部分)项目,针对大口径超长距离顶管施工中所存在的困难进行了技术攻关。解决了混凝土沉井节段划分及工厂化制作、沉井分节下沉、封底混凝土浇筑、顶管施工等过程中存在的难题,确保了项目顺利实施。总结的管理工作经验,可为类似项目提供借鉴。

基于BP神经网络对隧道初衬砼应力的评价分析对比预测

为确定杨家山特大断面隧道特定区段的最佳预测引起的初衬砼应力模型,本文采用BP (back propagation)神经网络算法,以该区段初衬砼应力监测数据为输入值,使用5种方法训练网络,分析应力预测值和真实值的差异,给出预测误差的分布情况,以及网络训练过程中性能、验证和测试曲线。同时基于多目标优化问题的分析方法,对5种训练方式进行综合性评价。结果表明:从优到差的顺序依次为:Ploak-Ribiere共轭梯度法>自适应动量梯度下降法>拟牛顿算法>Powell-Beale共轭梯度法>Levenberg-Marquardt,Ploak-Ribiere共轭梯度法最优,预测准确度达到98%以上,故在后续隧道开挖过程中可通过Ploak-Ribiere共轭梯度法训练BP神经网络,对特定区段隧道所产生的初支与围岩应力进行有效预测,保证施工安全。

膨胀剂和高吸水性树脂对钢壳沉管自密实混凝土体积变形性能的影响

通过对深中通道钢壳沉管自密实混凝土配合比进行优化设计,探讨了膨胀剂、高吸水性树脂对自密实混凝土工作性能和抗压强度的影响,并重点研究膨胀剂、高吸水性树脂对自密实混凝土的早期收缩和长期收缩变形的影响。研究结果表明:掺加适量的膨胀剂、高吸水性树脂均可提升自密实混凝土的工作性能,掺量过大时对混凝土工作性能不利,且抗压强度也随之降低;与掺加膨胀剂相比,掺加高吸水性树脂可更有效改善自密实混凝土的体积稳定性。