Edge crack growth of mortar plate specimens under uniaxial loading tests

In this paper, a compression-to-tension conversion technique is developed by applying predominant mode I loading test, using a servo-controlled compression system. The technique is applied to thin mortar plate specimens of different widths that include a prefabricated crack on either a single side to facilitate unilateral crack propagation, or prefabricated cracks positioned on both sides asymmetrically with respect to the specimen midpoint to facilitate bilateral crack propagation under direct tensile stress with a loading rate of 0.001 mm/s. The results show that the main pathways of unilateral crack propagation governing specimen failure are fluctuated locally, but present an approximately straight line overall in the absence of pre-existing internal defects. However, the pathways of bilateral crack propagation are relatively complex, although they present similar characteristics. Analysis results suggest that bilateral crack propagation can be basically divided into three stages, i.e. a stage of linear propagation, a stage representing deviation from the other crack, and a stage where one crack approaches either the other crack or approaches the opposite edge of the specimen, and thereby forming a continuous crack through the specimen. In addition, the stressestrain curves of bilateral crack specimens do not vary significantly around the point of peak stress prior to specimen failure, which means that the specimens do not fail instantaneously.

Effects of Specimen Height on the Acoustic Emission Rate Value 'a' for Cement Mortar

In order to study the size effect on the AE rate ’a’ value,three kinds of mix ratios were set up by different particle sizes and water cement ratios,45 cement mortar specimens with five different heights were tested under axial compression.And the whole damage processes were monitored by full-digital acoustic emission acquisition system,followed by an analysis of mechanical behavior and AE activity.The experimental results show that the height of the cement specimen has significant effects on the compressive strength and the acoustic emission rate ’a’ value,but a slight effect on the accumulated AE hits number,which is analyzed from aspects of failure process of cement mortar specimens.

Influence of filler-bitumen ratio on performance of modified asphalt mortar by additive

When the filler-bitumen ratio of asphalt mortar changes, its adhesion and viscoelasticity will also change, as well as its performance at the high and low temperatures, fatigue durability, and ductility. Thus, the appropriate fillerbitumen ratio directly affects the asphalt mortar＇s performance. This paper tested the physical indexes of the No. 70 matrix asphalt mortar modified by additive Sasobit （SB） and Sasowam （SW） through dynamic shear rheometer and bending beam rheometer under different temperature conditions, and comprehensively analyzed the high-temperature anti-rutting and fatigue performance, low-temperature crack resistance performance, and ductility of asphalt mortar. The results show that ore powder not only can increase the antirutting factor but also can increase the aging resistance of asphalt. SB has better performances than SW at high temperatures. As for the filler-bitumen ratio of asphalt mortar with additive SB, the recommended value is between 0.8 and 1.2, and the value may be a little larger for that with SW.

Experimental Comparative and Numerical Predictive Stu-dies on Strength Evaluation of Cement Types: Effect of Specimen Shape and Type of Sand

Quality of cement is evaluated via group of tests. The most important, and close to understanding, is the compressive strength test. Recently, Egyptian standards adopted the European standards EN-196 and EN-197 for specifying and evaluating quality of cements. This was motivated by the large European investments in the local production of cement. The current study represents a comparative investigation, experimental and numerical, of the effect of different parameters on evaluation of compressive strength. Main parameters are shape of specimens and type of sand used for producing tested mortars. Three sets of specimens were made for ten types of cements. First set were 70.6 mm cubes molded according to old standards using single sized sand. Second group were prisms molded from standard sand (CEN sand) according to the recent standards. Third group were prisms molded from local sand sieved and regenerated to simulate same grading of CEN sand. All specimens were cured according to relevant standards and tested at different ages (2,3,7,10 and 28 days). Results show that CEM-I Type of cement does not fulfill, in all of its grades, the strength requirements of Ordinary Portland cement OPC specified in old standards. Also, the use of simulated CEN sand from local source gives strengths lower than those obtained using standard certified CEN sand. A limited number of tests were made on concrete specimens from two most common CEM-I types to investigate effect on concrete strength and results were also reported. Numerical investigation of the effect of specimen shape and type of sand on evaluation of compressive strength of mortar specimens, presented in the current study, applies one of the artificial intelligence techniques to simulate and predict the strength behavior at different ages. The Artificial Neural Network (ANN) technique is introduced in the current study to simulate the strength behavior using the available experimental data and predict the strength value at any age in the range of the experiments or in the future. The results of the numerical study showed that the ANN method with less effort was very efficiently capable of simulating the effect of specimen shape and type of sand on the strength behavior of tested mortar with different cement types.

在干湿循环下CaFe-LDHs掺合料对混凝土试块的抗硫酸盐侵蚀研究

通过化学共沉淀法制备出Ca Fe-LDHs,并用于硫酸盐的吸附及混凝土试块的抗硫酸盐侵蚀研究。吸附试验表明,CaFe-LDHs对硫酸的吸附过程符合拟一级动力学模型和Langmuir模型,这说明CaFe-LDHs对硫酸盐具有更好的吸附性能。在抗硫酸盐侵蚀试验表明,混凝土试件的抗压强度随Ca Fe-LDHs掺量的增加而增加,且随着干湿循环的次数增加而先增加后减少。硫酸盐深度分布曲线表明,随着掺合料的增加能够有效地延缓硫酸盐对混凝土试块的侵蚀,并说明CaFe-LDHs作为掺合料能够有效地降低硫酸盐对混凝土试块的侵蚀。

基于分层浇筑碾压的土坝施工技术研究

为研究分层浇筑碾压混凝土坝施工质量,通过试验方式测试了分层浇筑碾压混凝土坝在大风环境和高温低湿环境的层间结合状态,并提出了3种施工控制措施。从结果看:不良环境下,分层浇筑碾压混凝土大坝不利于施工质量控制;高温低湿环境下,在碾压混凝土坝上覆盖保温被无法确保其层间结合质量,而增设界面凹槽的方式使其层间结合强度得到小幅度上升;大风环境下,在碾压混凝土坝上覆盖保温被和增设界面凹槽可有效确保其层间结合质量。

滇东北地区河砂碱活性及工程适用性研究

滇东北地区机制砂开采受限、资源较为匮乏,河砂虽丰富,但多为活性骨料,直接应用会对混凝土结构耐久性产生严重的不利影响。为解决滇东北地区活性河砂在公路工程中的直接应用不利问题,采用砂浆棒快速试验与混凝土棱柱体试验相结合的试验检测方法研究曲靖市会泽县、昭通市巧家县河砂的碱活性,提出3种抑制活性骨料碱-硅酸反应的措施并验证其有效性;根据碱-硅酸反应机理,分析工程所在区域的气候条件和结构物所处环境,并提出活性河砂的工程应用对策。结果表明:1)采用砂浆棒快速试验与混凝土棱柱体试验相结合的综合检测方法能更加客观评定河砂碱活性和抑制措施的有效性;2)外掺不低于20%的Ⅰ级或不低于25%的Ⅱ级粉煤灰可有效抑制碱-硅酸反应;3)活性河砂在应用时可根据工程环境采取适宜的应用策略,对于直接处于水中、空气相对湿度不低于80%或处于干湿交替环境的结构混凝土,应采取有效的抑制措施,其他环境使用时可不采取抑制措施直接使用。

废玻璃粉的火山灰活性

研究中位粒径为15.63、14.93、9.54μm的3种废玻璃粉,分别以相同的质量分数取代10%、20%、30%的水泥制成的胶砂试件7、14、21、28、35、120 d的抗压强度比(活性指数),测定不同龄期废玻璃粉石灰溶液与粉煤灰石灰溶液pH。结果表明:取代率越大,废玻璃粉的活性指数越小;35 d以前的龄期,中位粒径为15.63、14.93μm的废玻璃粉组活性指数最大,35~120 d的后期,中位粒径为9.54μm的废玻璃粉组活性指数最大;废玻璃粉组活性指数前期随着龄期的延长呈减小趋势,后期增大,120 d时达90%以上,比粉煤灰组活性指数约小15%;废玻璃粉石灰溶液与粉煤灰石灰溶液前期pH均呈减小趋势,后期增大;废玻璃粉和粉煤灰的石灰溶液均生成大量CaO-SiO2-H2O凝胶,粉煤灰石灰溶液中还有钙矾石生成,说明废玻璃粉后期有很强的火山灰活性。

激发剂种类对不同粉煤灰掺量的水泥胶砂强度的影响

采用胶砂强度试验,研究了几种激发剂对不同粉煤灰掺量的胶砂试块强度的影响。结果表明:激发剂掺量在0～2%之间,激发剂的掺量越大,激发效果越好;在低掺量粉煤灰体系时,硫酸钠和二水石膏3d和7d效果好,氯化钙28d效果明显,其他几种激发剂效果稍差;这是由于体系中掺入的硫酸钠、二水石膏和氯化钙,增补了体系中SO42-和Ca2+,对钙矾石和氯钙复盐的生成有利,同时也有助于粉煤灰活性的激发。在高掺量粉煤灰体系时,试块3d强度提高不大,7d时硅酸钠和硫酸钠的效果比较好,28d硅酸钠的效果最明显,其他几种激发剂效果稍差;这是由于硫酸钠和硅酸钠水解后生成NaOH,使液相中的OH-增多,粉煤灰在碱性环境下,玻璃体结构发生解聚重组,生成了具有三维网络状结构的无机聚合物。

锂云母渣作为掺合料的可行性研究

针对宜春地区的锂长石矿粉、通过"锂云母固氟重构综合提取碳酸锂技术"提取碳酸锂之后产生的灰色锂云母渣和通过"变温碳化法"制备碳酸锂产生的白色锂云母渣进行研究。此3种粉末均作为掺合料以掺量10%、20%、30%和40%掺入水泥胶砂试件,且同条件下浇筑和养护掺有粉煤灰和硅灰的水泥胶砂试件作为对比组。标准养护至规定龄期后进行抗折和抗压试验;试验结果表明:锂长石矿粉的掺入极大的降低了胶砂试件的抗折强度和抗压强度;白色锂云母渣作为掺合料具有明显的优势,掺量在20%以内时,掺白色锂云母渣胶砂试件早期强度优于掺有其他掺合料的试件,后期强度亦与掺粉煤灰试件相当,且优于掺其他掺合料的试件。掺灰色锂云母渣试件虽早期强度具有优越性,但后期强度却不具优势。

掺Ⅱ级粉煤灰胶砂试件在高浓度硫酸盐侵蚀下的破坏特征与破坏机理分析

按高性能混凝土配比方法制作不同水胶比、Ⅱ级粉煤灰不同掺量的胶砂试件,进行硫酸盐侵蚀试验。采用扫描电镜(SEM)和能谱(EDS)对试件进行微观观测、分析,结果表明:在低水胶比情况下,掺粉煤灰的胶砂试件受高浓度硫酸盐侵蚀破坏的类型是石膏型破坏,未产生钙矾石(Aft)型侵蚀破坏;侵蚀破坏发生在试件表层,侵蚀破坏层的厚度主要与水胶比、粉煤灰掺量、侵蚀龄期、侵蚀溶液浓度等因素有关。

外加剂及其交互作用对水泥胶砂试件抗压强度的影响

通过正交设计,选择了四因子三水平L3427的正交表,进行了27组试验,检测了试件的1d和28d的抗压强度,采用了极差分析、方差分析、影响率分析、试验水平分析和多重比较T法的分析方法,研究了影响水泥胶砂试件强度的显著因素和外加剂之间的交互作用.结果表明,影响1d抗压强度的特别显著因素是水泥用量,显著因素是膨胀剂、增黏剂,外加剂之间的交互影响可以忽略.影响水泥胶砂28d抗压强度的特别显著影响因素是水泥用量、速凝剂以及增粘剂,显著的是膨胀剂和速凝剂的交互作用.

铁尾矿颗粒形貌对砂浆尺寸稳定性影响的研究

为研究铁尾矿颗粒形貌对砂浆尺寸稳定性的影响,利用光学显微镜观察了铁尾矿砂、天然河砂和普通机制砂的颗粒形貌并对其进行了定量描述,探索量化指标对砂浆尺寸稳定性的影响规律。试验结果表明,三种细骨料中,铁尾矿砂的针片状、非球形程度最高,其颗粒表面光滑但存在最多的尖锐棱角。在干燥环境下,细骨料较低的OR值和RK值将显著增加砂浆试件的收缩值。由于铁尾矿砂这两个指标最低,其砂浆试件的尺寸稳定性低于天然河砂和普通机制砂砂浆试件。不同粒级的铁尾矿砂所配制的砂浆试件尺寸稳定性试验证明,此时影响砂浆尺寸稳定性主要因素不是颗粒形貌,而是粒级范围,粒级范围越小,则铁尾矿砂浆试件的尺寸收缩越大。

外掺MgO水泥净浆和砂浆小尺寸试件的压蒸膨胀变形

为了促进外掺MgO混凝土的推广应用,本文对外掺MgO水泥净浆和砂浆小尺寸试件的压蒸膨胀变形进行了试验研究。结果表明,试件尺寸对外掺MgO水泥净浆和砂浆的压蒸膨胀变形产生明显影响。压蒸膨胀率随着试件尺寸变化的规律是:微试件>小试件>标准试件。相应地,MgO极限掺量随着试件尺寸变化的规律是:微试件<小试件<标准试件。粉煤灰对外掺MgO水泥净浆和砂浆小尺寸试件压蒸膨胀变形的抑制作用依然存在,且粉煤灰掺量越大,其抑制膨胀变形的作用越明显。

废旧轮胎橡胶颗粒对水泥浆和砂浆抗裂性能的影响

通过圆环开裂试验和弯曲试验探讨了不同体积分数的废旧轮胎橡胶颗粒掺入水泥浆和砂浆后对抗裂和变形性能的影响,研究结果表明,在水泥净浆中掺入废旧轮胎橡胶颗粒,可延迟圆环试件的开裂时间,提高抗裂性,延迟时间的长短与橡胶颗粒的掺量有关,当橡胶颗粒的体积分数在20%～50%时,延迟效果最为显著；在砂浆试件中掺入橡胶颗粒,可显著改善其弯曲变形性能,试件破坏形式为延性破坏,破坏时的极限变形值比基准试件大得多,并且随着橡胶颗粒体积分数的增加而迅速增大。

掺外加剂对MgO水泥砂浆和混凝土压蒸膨胀率的影响

通过对采用标准砂和工程砂制作的砂浆和混凝土试体掺不同品种外加剂的压蒸试验研究,表明掺不同品种外加剂对外掺MgO水泥砂浆和混凝土压蒸膨胀率的影响是不同的。还比较了不同MgO掺量的砂浆和混凝土试体掺与不掺外加剂的压蒸试验结果。试验所揭示出的压蒸膨胀率的基本规律是:砂浆试体掺外加剂的比不掺的大,混凝土试体掺外加剂的比不掺的小,砂浆和混凝士试体无论掺与不掺外加剂都是标准砂的小于工程砂。据此为制定压蒸安定性试验方法提供了试验依据。

珊瑚砂浆单轴压缩试验研究

珊瑚砂及由其拌制的混凝土材料在岛礁建设中具有重要的工程意义。为研究珊瑚砂浆的单轴抗压强度,使用珊瑚砂和普通河砂以相同配合比制作了两组砂浆试件,然后利用MTS试验机进行3种不同加载速度下的对比试验,并对试验过程中端面不平的试件进行分析。结果表明,珊瑚砂浆的承载能力随着加载速度的增加而有所提高,但是以常规C30混凝土配合比制作的珊瑚砂浆试件的承载能力远低于同样配合比的普通砂浆,应当对珊瑚砂拌制的混凝土材料的配合比及制作工艺进行优化改进。

试件尺寸和养护温度对钢渣砂砂浆膨胀性能的影响

武钢转炉钢渣经自然冷却后,破碎磁选,过4.75 mm的筛,筛下的尾渣称为钢渣砂。采用此种钢渣砂配制砂浆,以硬化砂浆试体在水中的自由线性膨胀率为指标,研究了两种试件尺寸和50、80℃两种试验温度对钢渣砂砂浆膨胀性能的影响。试验结果表明:试件内温度场分布的不一致性是试件尺寸对膨胀率产生影响的主要原因;80℃试验温度不会改变砂浆性质,且与50℃相比,能加速钢渣砂的膨胀,起到快速检测的目的。

不同活化方式对煤矸石胶砂力学性能的影响研究

以煤矸石作为水泥胶砂试件的活性混合材料,采用胶砂强度法对比研究机械活化、化学活化、复合活化后煤矸石对胶砂试件物理力学性能的影响。通过3因素3水平的正交试验设计分析化学活化中各化学试剂掺量的最优组合。采用电镜扫描(SEM)与X射线衍射仪(XRD)对复合活化后的煤矸石胶砂试件进行微观形貌分析与物相组成分析。结果表明:煤矸石机械活化优势主要体现在胶砂试件养护早期,化学活化优势主要体现在养护后期,而将机械、化学活化结合起来的复合活化在不降低早期强度的基础上提高了后期强度;复合活化后煤矸石胶砂试件内部先后形成了钙矾石(AFt)、C-S-H凝胶等水化产物,进一步说明了复合活化激发了煤矸石的潜在活性,煤矸石与水泥浆体发生“火山灰效应”;化学试剂无水硫酸钠(Na_(2)SO_(4))对胶砂试件早期、中期强度影响较大,而石膏(CaSO_(4)·2H_(2)O)对胶砂试件后期强度影响较大。

不同面积凸凹槽蒸压粉煤灰砖砌体抗压性能试验研究

近年来的工程实践表明,蒸压粉煤灰砖砌体的裂缝和耐久性问题未得到根本解决,导致粉煤灰砖的应用受到限制,只能用于非承重墙体。在标准蒸压粉煤灰砖表面设计4种不同面积的砂浆槽,砌成试验用墙片砌体试件,通过抗压试验测得试验数据,如初裂缝强度、极限破坏强度、开裂裂缝大小,并与无刻槽的砖砌体试件对比,以验证砂浆槽对砌体强度的影响,探讨提高砌体强度的可能性。