Influence of Cement Types and Mineral Admixtures on Resistance of Mortar to Sulfate Attack under Lower Temperature

Mortar prisms made with different cements or mineral admixtures plus 30% mass of limes tone filler were stored in 2% magnesium sulfate solution at 5±1 ℃ for 1 year and their visual appearance,strength development were measured at intervals.The formation of thaumasite was checked and confirmed by XRD and FTIR.The results show that the relative resistance to thaumasite form of sulfate attack of the cements is outlined below,from best to worst:sulphoaluminate cement,sulfate resisting Portland cement,OPC.The resistance to thaumasite form of sulfate attack of mortar is remarkably improved by the addition of silica fume or ground granulated blastfurnace slag (SL),and the better the resistance to thaumasite form of sulfate attack,the more the addition of SL is.The thaumasite form of sulfate attack is decreased to a certain degree by a lower replacement of cement with fly ash,but it is accelerated by the addition of a higher amount of fly ash due to its lower reactivity.

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.

A New Type of Cement Kiln——Annular Shaft Kiln

Annular shaft kiln invented by authors is an achievement in scientific research of Wuhan University of Technology. The invention-patent technology has been applyed recently to a φ2.2×7.7m circular shaft kiln of semi-mechnization in Tangshan National Cement Plant. The circular shaft kiln became an annular shaft kiln after a core tube was added in it as an inner annulation. This kiln has been proved to be successful in practice. It’s output after firing on 9th october 1989 has increased by 50%. The average clinker mark of over 525 has

Numerical computation of anti-liquefaction effect of lattice-type cement-mixed soil countermeasure

Continuous soil-cement wall confinement method to resist liquefaction is a new kind of process. However, whether it also has a good effect on anti-liquefaction or not needs to be urgently answered for earthquake engineering. Quiet boundary is adopted on the lateral face while free field boundary is employed at the bottom. Byrne model on dynamic pore water pressure generation is accepted and natural seismic wave EI Centro whose peak acceleration is adjusted to 0.2 g in proportion is used for input. A double-layer foundation with sandy soil in the upper portion while clay soil in the lower part is chosen as the calculation model, which is 30 m in length and 20 m in width. The groundwater level is on the ground surface. Excess pore water pressure rate is considered as a liquefaction index in the three-dimensional non-linear earthquake response computation. The anti-liquefaction effectiveness and its influencing factors, such as confinement element area are studied. For the natural double-layer foundation, it is liquefied when the excess pore water pressure rate reaches 1.0 under the seismic load. Under the same earthquake load, the peak excess pore water pressure reduces to 0.56 after adopting reinforcement of the continuous soil-cement wall, which is 46% lower than before. It indicates that continuous soil-cement wall confinement method can attain the purpose of anti-liquefaction. Accordingly, it can be a sort of engineering measure to carry on the anti-liquefaction foundation treatment.

Research on Kaolinite Type Pyrite Slag as Activity of Cement Mixed Material

Produced by the production of sulfuric acid from kaolinite type when the Fe2O3 and metakaolin together constitute the kaolinite type pyrite cinder is a typical industrial solid waste. Only in southern Sichuan China storage capacity has reached millions of tons, that caused serious impact on ecology and environment in this area. It also caused serious waste of resources. The magnetite concentrate and given priority to with partial kaolinite pyrite cinder tailings that were obtained by grinding and magnetic separation. This experiment studied the relationship composition and particle size with its activity when cinder tailings as cement mixed material. The results show that the particle size of D90 were 88 micron, 56 micron, 40 micron, the activity index were 1.036, 1.068, 1.102. The slag after magnetic separation is a kind of very good activity of cement mixed material. It can make good use of the industrial solid waste.

不同固化剂加固滨海软土的强度特性室内试验研究

为提高固化剂加固滨海软土的强度特性与时效性,通过室内试验研究固化剂类型、固化剂掺量、水灰比、搅拌均匀性、养护条件等因素作用下固化滨海软土强度的演化规律。试验结果表明:不同固化剂加固软土的抗压强度随着养护期龄的延长持续增加,将水泥替换为HR软土固化剂可有效提高软土加固体的抗压强度。拌合时间越长,软土加固体的抗压强度越高;相同的拌合时间,水泥软土加固体的抗压强度远低于HR固化剂加固软土的抗压强度;利用HR软土固化剂加固软土能够在保障施工质量的基础上,有效缩短施工工期。随着水灰比的增加,软土加固体的抗压强度明显降低;相同的水灰比,HR固化剂加固软土的抗压强度均大于水泥软土加固体的抗压强度。软土加固体在养护过程中,温度与湿度在固化剂水化过程中发挥重要作用,影响软土加固体的抗压强度;相同的固化剂掺量,标准养护条件下软土加固体的抗压强度比低温养护提高2倍以上;软土加固体早期抗压强度随着养护期龄的延长增加显著,当期龄达到14 d后,随着期龄的增加软土加固体的抗压强度增长趋势明显变缓。

钢筋与铁铝酸盐水泥混凝土的粘结性能研究

铁铝酸盐水泥作为一种新型低碳水泥,其与钢筋的粘结性能尚缺乏系统研究。通过中心拉拔试验,研究了混凝土类型、水胶比和钢筋锈蚀率对粘结性能的影响。结果表明:当水胶比为0.56时,锈蚀钢筋与铁铝酸盐水泥混凝土的极限粘结强度比普通混凝土提高了2.3%。降低水胶比可提高混凝土粘结强度,且未锈蚀钢筋的粘结强度随水胶比减小而明显提高,滑移阶段曲线斜率增大。锈蚀率的增大导致粘结强度先提高后降低,但下降速率低于普通混凝土。当锈蚀率低于0.78%时,锈蚀对粘结强度有正面影响。基于现有粘结强度计算公式,建立了适用于锈蚀钢筋与铁铝酸盐水泥混凝土的粘结强度计算模型。

膝关节前内侧骨关节炎患者应用不同类型股骨髁假体单髁置换的疗效

目的分析膝关节前内侧骨关节炎(OA)患者应用不同类型股骨髁假体单髁置换(UKA)的疗效。方法前瞻性纳入2019年1月至2022年12月收治的拟行UKA治疗的膝关节前内侧OA患者180例为研究对象,按随机号码表法分为观察组和对照组,每组90例。2组患者均行UKA治疗,对照组使用骨水泥型单髁假体,观察组使用全生物型单髁假体。记录并比较2组患者手术时间、术中出血量、引流量、术后首次下地时间,分别于术前、术后3个月,使用牛津膝关节功能评分(OKS)、数字模拟疼痛评分(VAS)评价患者膝关节功能与疼痛情况,同时测定患者的膝关节活动度,记录术后不良事件发生情况。结果观察组患者手术时间短于对照组(P<0.05);2组术中出血量、伤口引流量及术后首次下地时间比较,差异无统计学意义(P>0.05)。术后3个月,2组患者OKS评分及膝关节活动度较术前升高,VAS评分较术前降低(P<0.05),但组间比较差异均无统计学意义(P>0.05);观察组不良事件发生率低于对照组(P<0.05),2组生理性透亮线发生率比较,差异无统计学意义(P>0.05)。结论膝关节前内侧OA患者行UKA治疗中,无论使用骨水泥型单髁假体或全生物型单髁假体,在改善患者膝功能、术后疼痛方面短期效果相同,但与骨水泥型单髁假体相比,全生物型单髁假体手术时间短,术后不良事件少。

三乙醇胺对掺偏高岭土水泥水化及硫酸盐平衡的影响

在2种类型石膏(无水石膏和半水石膏)情况下,研究了三乙醇胺(TEA)对掺偏高岭土水泥(MKC)水化进程及其硫酸盐平衡的影响,并与自配硅酸盐水泥(APC)进行对比.结果表明:无TEA加入时,MKC中偏高岭土(MK)的存在可延长水泥的水化诱导期并加快硫酸盐的消耗,2种类型石膏表现基本一致;TEA的加入能够显著促进水泥中铝相矿物的水化,增加硫酸盐平衡所需石膏掺量,同时石膏类型对水泥水化进程与硫酸盐平衡影响显著;对于APC与MKC,在TEA作用下能有效维持其硫酸盐平衡的石膏类型分别为无水石膏与半水石膏,这与水泥中硫酸根离子溶出-吸附-沉淀的动态平衡密切相关.

一种活动式可密封的滑套开启工具设计与研制

多级滑套分段压裂技术作为水平井分段压裂的重要支撑,近年来被广泛推广应用,通过滑套开启工具开启滑套并密封上一改造层段是确保该技术成功的关键。设计了一种在滑套开启工具上设置密封胶筒的结构,采用轴向机械压缩胶筒的层间密封理念,研制了活动密封式滑套开启工具,建立了密封性评价试验系统。结果表明:开启工具的密封承载能力达45MPa,结合井筒试验验证了密封设计的可靠性,具备生产应用条件。

装配式透水型复合水泥混凝土路面性能研究

装配式透水型复合水泥混凝土路面在路面施工应用广泛,为探究普通硅酸盐水泥不同的强度等级对装配式透水型复合水泥混凝土路面性能的影响,本文依托实际工程,对使用三种不同强度等级普通硅酸盐水泥制备的装配式透水型复合水泥混凝土路面的28d抗压强度、27d抗弯拉强度以及透水系数等指标进行试验检测,试验结果表明,采用水泥强度等级为42.5时,装配式透水型复合水泥混凝土路面能够获得不错的抗压强度以及较高的抗弯拉强度,且均能满足规范要求与施工要求。

新型骨水泥桥接螺钉系统联合PVP治疗伴IVC的SCOVF患者的效果

目的:探讨新型骨水泥桥接螺钉系统联合经皮椎体成形术(PVP)治疗伴椎体内真空裂隙(IVC)的症状性陈旧性胸椎骨质疏松性骨折(SCOVF)患者的效果。方法:回顾性分析广西壮族自治区人民医院2018年1月—2020年1月收治的120例伴IVC的SCOVF患者,纳入患者全部为绝经期女性患者,均行新型骨水泥桥接螺钉系统联合PVP治疗,且在手术过程中取骨质测量其骨微结构、骨硬度及弹性模量,以了解人体骨质疏松症发生发展过程中其骨微观结构及其力学特性的变化情况。并观察患者椎体指数(VBI)、椎体角(VBA)、双节段Cobb角(BCA)、视觉模拟评分(VAS)、Oswestry功能障碍指数(ODI)、健康状况及骨水泥移位发生情况。结果:120例患者骨微结构指标骨小梁厚度(Tb.Th)为(0.20±0.05)%,骨体积分数(BV/TV)为(0.19±0.04)%,结构模型指数(SMI)为(1.47±0.09)mm,骨小梁间隔(Tb.Sp)为(0.72±0.03)mm,骨硬度为(0.16±0.03),弹性模量为(1.96±0.05)。术前、术后1 d及术后3年,120例患者的VBI、VBA及BCA比较,差异有统计学意义(P<0.05)。随着时间的延长,患者VAS评分及ODI评分均逐渐降低,且术后3年患者的VAS评分及ODI评分低于术后1 d及术前,术后1 d患者的VAS评分及ODI评分低于术前,差异有统计学意义(P<0.05)。术后3年,120例患者健康调查简表(SF-36)评分均高于术前,差异有统计学意义(P<0.05)。随访3年,120例患者中无人发生骨水泥移位并发症。结论:新型骨水泥桥接螺钉系统联合PVP治疗伴IVC的SCOVF患者固定复位效果满意,疼痛缓解明显,功能恢复良好,术后并无骨水泥异位发生。

固井水泥环内部缺陷超声波检测仿真研究

固井水泥环内部的各种缺陷会导致层间窜流、井口带压等事故。无损检测技术作为一种非破坏性的检测方法,可以对固井水泥环内部的缺陷进行检测。基于超声波在连续介质中的传播规律,采用COMSOL仿真软件模拟压电效应以及超声波在水泥环中的传播状态和反射规律,研究水泥环缺陷反射信号的相关特性。研究结果表明:选择1.0 MHz 5周期Hanning窗调制的超声正弦波作为激励信号,超声探头可以在50μs内接收到水泥环缺陷的反射信号;不同类型的缺陷中,矩形缺陷的检测效果最佳;当缺陷主方向与超声波入射方向垂直时,检测效果最佳。研究结果验证了超声波无损检测技术可以快速准确地确定固井水泥环内部缺陷的类型和位置,同时调整超声波入射角度有助于提升检测效果,可为超声波在水泥环内部缺陷检测中的应用提供一定的指导意义。

象限法评估椎体成形术后骨水泥分布类型与骨质疏松性椎体新发骨折的关系

目的 象限法评估骨水泥在椎体内弥散分布情况,分析骨水泥弥散分布类型与椎体强化术后新发椎体骨折的相关性。方法 2020年1月~2021年12月收治满足条件的病人170例。根据脊柱正侧位片将伤椎分成4个象限,根据术后骨水泥在伤椎内弥散分布情况分为弥散均匀组和弥散不均组。比较两组术后再骨折发生率及再骨折类型,以及术后及末次随访VAS评分及Cobb角变化情况。结果 170例病人均获得至少12个月的随访,其中弥散均匀组90例、弥散不均组80例。发生再骨折33例,发生率为19.41%;弥散均匀组发生再骨折12例,发生率为13.33%;弥散不均组发生再骨折21例,发生率26.25%,组间比较,差异具有统计学意义(P<0.05)。弥散均匀组发生再骨折部位以邻椎骨折为主,而弥散不均型邻椎及术椎发生再骨折概率相近。弥散均匀组病人术后骨水泥泄漏发生率低于弥散不均组,差异有统计学意义(P<0.05)。两组术后及末次随访时VAS评分及Cobb角较术前均显著改善,但组间比较差异无统计学意义(P>0.05)。结论 椎体成形术后新发椎体骨折的发生率与骨水泥弥散类型相关,通过象限法定义为骨水泥弥散不均型再骨折风险较高。

沥青胶结料与级配对超薄罩面混凝土高温性能的影响

为探究胶结料与级配类型对设计厚度≤2.5 cm的超薄罩面的高温性能影响,设计AC-10C、SAC-10、ECA-10三种级配,分别采用70^(#)基质沥青和SBS改性沥青作为胶结料,形成六种沥青混合料组合进行车辙试验和动态蠕变试验研究。结果表明:胶结料的改变对混合料高温性能的影响要大于级配类型的改变;相比70^(#)基质沥青,SBS改性沥青能够较大程度提升混合料的高温性能;级配越粗、骨架密实结构更完善,高温性能更优。建议应用超薄罩面技术时,尽可能用高温性能优良的沥青,级配采用骨架密实结构。

江苏常州芳山水泥配料用砂岩矿地质特征及成因浅析

芳山水泥配料用砂岩矿位于江苏省南京市溧水区与常州市溧阳市交界处,赋存于上志留统茅山组(S3m)和上泥盆统五通组(D3w),共划分3个矿体,分别位于芳山倒转背斜南东翼和北西翼,矿体构造形态中等,层状产出,总体呈北东—南西向,倾向南东,整体连续性较好。矿石自然类型为石英砂岩,工业类型为水泥配料类硅质原料。初步认为该矿矿床类型为机械沉积型,陆源碎屑建造相沉积成因类型。

不同种类石膏对石膏矿渣水泥性能影响研究

文中采用硬石膏、脱硫石膏和磷石膏,与粒化高炉矿渣和少量水泥制备石膏矿渣水泥,研究了不同石膏种类和掺量对石膏矿渣水泥的物理力学性能的影响,并分析其作用机理。结果表明,掺硬石膏的矿渣水泥流动性最好、凝结时间最短,其次是脱硫石膏,掺磷石膏的矿渣水泥流动度最差、凝结时间最长。掺入硬石膏的矿渣水泥早期3 d抗压强度最低,其次是磷石膏,脱硫石膏的矿渣水泥3 d抗压强度最高。掺硬石膏的矿渣水泥28 d抗压强度最高,其次是脱硫石膏,磷石膏最低。这些性能与石膏的纯度、溶解度及石膏中含有的有害物质等因素有关。

纤维增强水泥基复合材料单轴拉伸性能影响因素研究

通过单轴拉伸试验研究了纤维种类、纤维体积掺量及水胶比等因素对纤维增强水泥基复合材料(ECC)拉伸性能的影响。结果表明:随着水胶比的增大,ECC的极限抗拉强度减小,极限拉伸应变增大,应变−硬化特征更加明显;ECC的抗拉强度及拉伸应变随纤维掺量的增大呈升高趋势,纤维掺量2.0%时拉伸应力应变最大;日产PVA纤维对ECC的抗拉强度和拉伸应变影响最为显著,其次是国产PVA纤维,而PP纤维在拉伸过程中的力学性能表现相对较弱。研究结果为ECC的推广与应用提供了一定的参考。

高速公路路堤式道路水泥搅拌桩复合地基沉降研究

以佛(山)江(门)高速工程项目为研究对象,运用现场实测的手段研究路基填筑过程中水泥搅拌桩复合地基的沉降随时间和随深度的变化特征。结果表明,随着深度的增加,水泥搅拌桩复合地基在不同深度处的沉降值表现出非线性单调降低的趋势,最大的沉降值在地表;地基的总沉降主要由水泥搅拌桩加固区部分的压缩量和加固区下卧层的压缩量组成;指数函数、对数函数和二次多项式的拟合关系均可以较好地描述地基沉降随深度的变化;不同深度监测点的沉降值变化规律大致相同,均呈非线性单调增加,并在施工静置期趋于收敛;路基沉降、沉降速率随时间的变化规律与路堤的填筑进程具有显著的相关性,沉降速率在填筑期波动最大,在早期沉降速率增长较快,随后沉降速率降低并呈现小幅度的波动。

胶凝材料组成对混凝土TSA硫酸盐侵蚀的影响

研究不同水泥品种、矿物掺合料对混凝土抗TSA侵蚀性能的影响规律,采用掺30%石灰石粉填料的胶砂件,测试各砂浆在5±1℃的2%MgSO4溶液中浸泡1年后的外观破损与强度损失情况,通过X-射线衍射仪分析各砂浆的矿物成分.结果表明:不同品种水泥的抗TSA侵蚀能力由高到低依次为:硫铝酸盐水泥+硅酸盐水泥复合>硫铝酸盐水泥>抗硫酸盐水泥>普硅水泥.掺硅灰和矿渣细粉均能明显改善混凝土抗TSA侵蚀性能,且矿渣粉掺量越大效果越明显.由于粉煤灰活性低,掺量较少时可在一定程度上减缓TSA侵蚀过程,但掺量过多时反而产生不利影响.