煤气化渣掺量对复合碱激发胶凝材料性能与水化的影响#br#

金属矿山 ›› 2025, Vol. 54 ›› Issue (10): 295-300.

• 矿物材料 • 上一篇

煤气化渣掺量对复合碱激发胶凝材料性能与水化的影响#br#

卢　鼎¹　张　晋¹　胡智航^1,2,3　王　青^1,2,3　顾晓薇^1,2,3　胥孝川^1,2,3

1. 东北大学资源与土木工程学院,辽宁沈阳 110819;2. 辽宁省固废产业技术创新研究院,辽宁沈阳 110819;
3. 东北大学智慧水利与资源环境科技创新中心,辽宁沈阳 110819

出版日期:2025-10-15 发布日期:2025-11-10
通讯作者: 顾晓薇(1971—),女,教授,博士,博士研究生导师。
作者简介:卢　鼎(2004—),男。
基金资助:
“十四五”国家重点研发计划项目(编号:2023YFC3904303)。

Effect of Coal Gasification Slag Content on the Properties and Hydration of Composite Alkali-Activated Cementitious Materials#br#

LU Ding¹　ZHANG Jin¹　HU Zhihang^1,2,3　WANG Qing^1,2,3　GU Xiaowei^1,2,3　XU Xiaochuan^1,2,3

1. School of Resources and Civil Engineering,Northeastern University,Shenyang 110819,China;
2. Liaoning Institute of Technological Innovation in Solid Waste Utilization,Shenyang 110819,China;3. Northeastern University
Smart Water Conservancy and Resource Environment Science and Technology Innovation Center,Shenyang 110819,China

Online:2025-10-15 Published:2025-11-10

摘要/Abstract

摘要： 煤气化渣(CGS)富含非晶态硅铝酸盐矿物,具备作为碱激发胶凝材料(AAMs)前驱体的潜力。为探究
其部分替代矿渣(GBFS)制备AAMs 的技术可行性,研究采用不同掺量(0、20%、40%、60%)的CGS 替代GBFS,在
NaOH 激发下制备AAMs,通过测试凝结时间、流动度与抗压强度评价宏观性能,并利用等温量热法、X 射线衍射
(XRD)、热重分析(TG-DTG)及傅里叶变换红外光谱(FTIR)等手段分析其早期水化历程与水化产物。结果表明,40%
掺量以内的CGS 可有效改善NaOH-AAMs 的快速凝结问题,延缓早期水化速率,且不影响抗压强度发展;随CGS 掺量
增加,抗压强度呈先增后降趋势,最佳掺量为40%,此时28 d 抗压强度达29. 4 MPa,较纯矿渣体系提高15. 3%。水化
产物主要为水化硅(铝)酸钙(C-(A)-S-H)凝胶,是强度的主要来源;当CGS 掺量增至60%时,C-(A)-S-H 凝胶生
成量显著减少,导致强度下降。研究表明,CGS 可有效替代部分GBFS 用于制备AAMs,最佳掺量为40%,为实现煤气
化渣的高附加值资源化利用提供了途径。

关键词: 碱激发胶凝材料　煤气化渣　矿渣　抗压强度　水化作用

Abstract: Coal gasification slag (CGS),rich in amorphous aluminosilicate minerals,has the potential to serve as a precursor
for alkali-activated materials (AAMs). This study investigated the technical feasibility of utilizing CGS to partially replace
granulated blast furnace slag (GBFS) in preparing AAMs. Different dosages of CGS (0,20%,40%,60%) were used to
replace GBFS, activated by NaOH. The macroscopic properties were evaluated by setting time, fluidity, and compressive
strength tests,while the early hydration process and hydration products were analyzed using isothermal calorimetry,X-ray diffraction
(XRD),thermogravimetric analysis (TG-DTG),and Fourier transform infrared spectroscopy (FTIR). The results
showed that CGS within 40% effectively mitigated the rapid setting of NaOH-AAMs,retarded the early hydration rate,and did
not impair the development of compressive strength. The compressive strength initially increased and then decreased with increasing
CGS content,reaching an optimum at 40% replacement,where the 28-day compressive strength was 29. 4 MPa,representing
a 15. 3% increase over the pure slag system. The primary hydration product was calcium (alumino) silicate hydrate
(C-(A)-S-H) gel,which was the main source of strength. However,when the CGS content increased to 60%,the formation of
C-(A)-S-H gel was significantly reduced,leading to a decrease in strength. This study demonstrates that CGS can effectively
replace part of GBFS in AAMs production,with an optimal dosage of 40%,providing a pathway for the high-value resource utilization
of coal gasification slag.

Key words: alkali-activated cementitious materials,coal gasification slag,slag,compressive strength,hydration reaction

中图分类号:

TQ177

卢　鼎　张　晋　胡智航, 　王　青, 　顾晓薇, 　胥孝川, . 煤气化渣掺量对复合碱激发胶凝材料性能与水化的影响#br#[J]. 金属矿山, 2025, 54(10): 295-300.

LU Ding　ZHANG Jin　HU Zhihang, 　WANG Qing, 　GU Xiaowei, 　XU Xiaochuan, . Effect of Coal Gasification Slag Content on the Properties and Hydration of Composite Alkali-Activated Cementitious Materials#br#[J]. Metal Mine, 2025, 54(10): 295-300.

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煤气化渣掺量对复合碱激发胶凝材料性能与水化的影响#br#

Effect of Coal Gasification Slag Content on the Properties and Hydration of Composite Alkali-Activated Cementitious Materials#br#

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