粉煤灰
抗压强度
材料科学
固化(化学)
相对湿度
复合材料
湿度
物理
热力学
作者
M. H. Liu,Y. R. Zhang,Y. F. Wang
标识
DOI:10.1179/1432891715z.0000000001967
摘要
Adding fly ash in concrete can reduce CO2 emission and energy consumption. However, the increase of fly ash content always leads to reduction of concrete's compressive strength. Moreover, the contribution of fly ash to the compressive strength is also influenced by many environmental factors, such as curing temperature, humidity and time. In this study, the influences of curing humidity and temperature on the mechanical properties and total CO2 emission of fly ash concrete were investigated. The ratio of CO2 emission to the compressive strength of concrete was proposed to evaluate the contribution of fly ash to carbon emission. On this basis, it was found that CO2 emission of fly ash concrete was influenced by curing temperature and relative humidity greatly. Under different curing temperatures and relative humidities, the ratio of carbon emission to the compressive strength showed an obvious difference.
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