不同分子质量高效减水剂作用下水泥浆体水化及结构形成规律

A. Vovk, G. Vovk, A. Usherov-Marshak
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引用次数: 4

摘要

研究了水泥浆体中分子量作为影响减水剂性能的重要参数。将磺化ALCELL木质素样品按不同分子量分成4个组分。在小型实验装置上采用膜超滤进行分离。采用先进的亲水性膜,具有I, qo和50 kd的标称MW截止,有效面积为63 cm2。采用高效水阻色谱法测定原始样品及其组分的分子量分布、平均分子量(Mn、Mw、Mz和Mz+1)和多分散性。将五种样品配制成20%的水溶液,作为减水剂。通过扭矩和微坍落度试验考察了它们对新水泥浆体的影响。通过转矩试验考察了样品的流化和缓速效果。转矩阻力的变化由计算机系统监测,给出分散程度和设定延迟的指示。采用微坍落度试验测定了新水泥浆体的和易性和掺气性。研究了木素磺酸盐分子量对鲜水泥浆体性能的影响。结果表明,木质素磺酸盐样品的分子量越小,水泥浆体的凝结缓凝率越高。当使用直接分子量样品时,观察到最高的流化和最低的空气夹带。在每个特定的实验中,最佳分子量分数总是比原始的未分馏样品更有效。效率极低的馏分也被鉴定出来。所得数据可用于优化木质素磺酸盐外加剂的性能。
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Regularities of Hydration and Structure Formation of Cement Pastes in the Presence of Superplasticizers with Different Molecular Mass
The importance of molecular weight as a parameter influencing the performance of water-reducing admixture in cement paste was investigated. The sulphomorthlolated ALCELL lignin sample was divided into four fractions of different molecular weight. The fractionation was performed by membrane ultrafiltration on a small laboratory unit. Advanced hydrophilic membranes with a I, qo and 50 kd nominal MW cut-off and effective area of 63 cm2 were used. Molecular weight distribution, average molecular weights (Mn, Mw, Mz and Mz+1), and polydispersity of the original sample and its fractions were determined by high-performance aqueous size-exclusion chromatography. The five samples, prepared as 20% aqueous solutions, were used as water-reducing admixtures. Their influence on fresh cement pastes was examined using the torque and mini-slump tests. The torque test was performed to investigate the fluidifying and retarding effects of the samples. Changes in torque resistance were monitored by a computerized system, giving an indication of the degree of dispersion and set retardation. The mini-slump test was used to determine the workability and air-entrainment of the fresh cement paste . The dependence of the properties of the fresh cement pastes on the lignosulphonate molecular weight was studied. It was found that the lower the molecular weight of the lignosulphonate sample the higher the set retardation of the cement paste. The highest fluidication and lowest air-entrainment were observed when the immediate molecular weight samples were used. The optimum molecular weight fraction in each particular experiment was always more effective than the original unfractionated sample. Fractions with extremely low efficiency were also identified. The data obtained can be utilized in optimization of lignosulphonate admixture performance.
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