Response surface optimization of CO2-mixing mineralization concrete: Balancing mechanical properties and carbon sequestration

被引:0
|
作者
Cheng, Xu [1 ,4 ]
Tian, Wei [1 ,2 ]
Yuan, Qiang [2 ,3 ]
Lacey, Andrew [4 ]
Chen, Wensu [4 ]
Guo, Jian [1 ]
Cai, Jiqi [5 ]
机构
[1] Changan Univ, Sch Civil Engn, Xian 710061, Peoples R China
[2] Natl Engn Res Ctr High speed Railway Construct Tec, Changsha 410075, Peoples R China
[3] Cent South Univ, Sch Civil Engn, Changsha 410075, Peoples R China
[4] Curtin Univ, Ctr Infrastruct Monitoring & Protect, Sch Civil & Mech Engn, Perth, WA, Australia
[5] Beijing Shougang Min Construct Co Ltd, Tangshan 063000, Peoples R China
来源
CONSTRUCTION AND BUILDING MATERIALS | 2025年 / 471卷
关键词
CO2-mixing; Supplementary cementitious materials; Response surface methodology; Multi-objective optimization; CO2; sequestration; FLY-ASH; STEEL SLAG; CEMENT HYDRATION; CO2; PERFORMANCE; DURABILITY; ADMIXTURE; STRENGTH;
D O I
10.1016/j.conbuildmat.2025.140648
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
This study optimized the mix proportions of low-carbon concrete with CO2-mixing mineralization using Response Surface Methodology (RSM) and Box-Behnken Design (BBD). Steel slag (SS) content, fly ash (FA) content, and CO2 dosage were treated as independent variables, with slump (S.P.), 3-day compressive strength (3d-C.S.), 28-day compressive strength (28d-C.S.), and CO2 fixation rate (C.F.) as response variables. Results showed that FA content positively affected S.P., while CO2 dosage negatively impacted it. SS content positively influenced 28d-C.S., while FA, SS, and CO2 all negatively affected 3d-C.S., with FA having the strongest impact. C.F. was most responsive to CO2 dosage, increasing by 39.2% with an increase in CO2 from 0.4 wt% to 1.2 wt%. This study highlights the limited role of FA in improving concrete performance under CO2-mixing conditions and provides new insights into the mechanisms of CO2-mixing mineralization concrete.
引用
收藏
页数:19
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