Effect of admixtures and supplementary cementitious material on mechanical properties and durability of concrete

Gholamreza Asadollahfardi, Behnaz Yahyaei, Amir M. Salehi, Arash Ovesi
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引用次数: 5

Abstract

We studied the effects of superplasticizer (SP) (PCE1 and PCE2), air-entraining admixtures (AEA), and supplementary cementitious material (silica fume and fly ash) on the mechanical and durability properties of concrete samples. Eight concrete mix designs were prepared. The first six concrete mix design contained similar aggregates, PCE2 SP, AEA, 350 kg/m3 cement, and water to cement ratio equal to 0.38, and one of the mentioned mix design was selected as control samples with water to cement ratio equal to 0.57, without PCE2 SP and AEA. We used a different quantity of PCE2 SP and AEA and replaced the fly ash or silica fume as part of cement in two of the mentioned mix designs. The last two concrete mix designs studied the effect of PCE1 SP and AEA on freezing and thawing of concrete mix design. Adding PCE2 SP in concrete mix design increased compressive strength at age 11, 42, and 90 days sharply and reduced the depth of water penetration at the age of 28 and 90 days compared to the control sample. Using simultaneous PCE2 and AEA in concrete mix design did not improve compressive strength significantly and increased slightly depth of water penetration compared to only using PCE2. However, increasing the quantity of AEA to 5% improved both compressive strength and reduced depth of water penetration. In the second group of concrete mix design, adding both PCE1 and AEA increased the number of resistible freezing and thawing cycles of concrete. Side chain length and molecular weight of PCE1 and PCE2 SPs had no important effect on the compressive strength and performance properties of concrete.

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外加剂和补充胶凝材料对混凝土力学性能和耐久性的影响
我们研究了高效减水剂(SP) (PCE1和PCE2)、引气外加剂(AEA)和补充胶凝材料(硅灰和粉煤灰)对混凝土样品力学性能和耐久性的影响。编制了8种混凝土配合比设计方案。前6种混凝土配合比设计采用相似的骨料、PCE2 SP、AEA、350 kg/m3水泥、水灰比为0.38的配合比设计,其中1种配合比为0.57、不含PCE2 SP和AEA的配合比设计作为对照样品。在上述两种混合设计中,我们使用了不同数量的PCE2 SP和AEA,并取代了粉煤灰或硅灰作为水泥的一部分。前两项混凝土配合比设计研究了PCE1 SP和AEA对混凝土配合比冻融设计的影响。与对照样品相比,在混凝土配合比设计中加入PCE2 SP显著提高了11、42和90天龄期的抗压强度,降低了28和90天龄期的水侵深度。与单独使用PCE2相比,同时使用PCE2和AEA在混凝土配合比设计中没有显著提高抗压强度,但水侵深度略有增加。然而,将AEA添加量增加到5%,既提高了抗压强度,又降低了水渗透深度。在第二组混凝土配合比设计中,PCE1和AEA的加入均增加了混凝土的抗冻融循环次数。PCE1和PCE2 SPs的侧链长度和分子量对混凝土的抗压强度和性能没有显著影响。
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