Effect of curing conditions on the strength and durability of air entrained concrete with and without fly ash

Yanhai Wang , Rui Xiao , Hang Lu , Wei Hu , Xi Jiang , Baoshan Huang
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Abstract

In cold regions, air entrained concrete has been widely used against freeze–thaw deterioration. This paper studied the influence of curing conditions on the strength and durability of air entrained ordinary portland cement (OPC) and fly ash (FA) concrete. Four different curing conditions including standard curing (SC), air curing (AC), mild temperature curing (MC), and elevated temperature curing (EC) were utilized to cure the cast specimens. The compressive strength at 3, 7, 14, and 28 days was measured respectively. Also, the water absorption, sorptivity, air void system, as well as freeze–thaw durability after 28 days of curing were investigated. Test results suggested that AC condition impeded the strength gain of both concrete, but it affected FA concrete more than OPC concrete. EC condition improved the early-age strength while compromised the later-age strength of OPC concrete, whereas EC condition improved the compressive strength of FA concrete at both early ages and later ages. AC condition has more adverse effects on water absorption as well as sorptivity of FA concrete than those of OPC concrete. EC condition increased the water absorption and sorptivity of OPC concrete, whereas reduced the water absorption and sorptivity of FA concrete. Although the air content in fresh OPC and FA concrete were comparable, FA concrete had less proportion of microvoids (air voids smaller than 300 μm), larger spacing factor but smaller specific surface, regardless of curing conditions. EC condition caused the reduction in air content, the increase of spacing factor, and decrease of specific surface. For both OPC concrete and FA concrete, the four curing conditions produced different freeze–thaw durability factor (DF), but all the specimens passed the failure limit of 60 %. The freeze–thaw test results based on specimens under SC condition may overestimate the DF.

养护条件对掺加和不掺加粉煤灰混凝土强度和耐久性的影响
在寒冷地区,加气混凝土已被广泛用于防止冻融变质。研究了养护条件对加气普通硅酸盐水泥(OPC)和粉煤灰(FA)混凝土强度和耐久性的影响。采用四种不同的固化条件,包括标准固化(SC)、空气固化(AC)、温和温度固化(MC)和高温固化(EC)来固化铸造试样。分别测量第3天、第7天、第14天和第28天的抗压强度。此外,还研究了固化28天后的吸水性、吸附性、空隙系统以及冻融耐久性。试验结果表明,AC条件阻碍了两种混凝土的强度增长,但对FA混凝土的影响大于OPC混凝土。EC条件提高了OPC混凝土的早期强度,但降低了其后期强度,而EC条件则提高了FA混凝土的早期和后期抗压强度。与OPC混凝土相比,AC条件对FA混凝土的吸水性和吸水性的不利影响更大。EC条件增加了OPC混凝土的吸水率和吸水性,而降低了FA混凝土的吸水性和吸水性。尽管新鲜OPC和FA混凝土中的空气含量相当,但无论养护条件如何,FA混凝土的微孔比例较小(气孔小于300μm),间距系数较大,但比表面积较小。EC条件导致空气含量降低,间距因子增加,比表面积减小。对于OPC混凝土和FA混凝土,四种养护条件产生了不同的冻融耐久系数(DF),但所有试样都通过了60%的破坏极限。基于SC条件下试样的冻融试验结果可能高估了DF。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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