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金属矿山 ›› 2026, Vol. 55 ›› Issue (4): 308-313.

• 矿物材料 • 上一篇    

垃圾焚烧灰渣基全固废轻质集料的制备与性能研究

李婷婷1 骆遇昕1 李勇涛1 纪小平2 宋厚甫2   

  1. 1. 陕西交控建投经营管理有限公司,陕西 西安 710075;2. 长安大学公路学院,陕西 西安 710064
  • 出版日期:2026-04-15 发布日期:2026-05-13
  • 通讯作者: 纪小平(1982—),男,教授,博士,博士研究生导师。
  • 作者简介:李婷婷(1980—),女,高级工程师。
  • 基金资助:
    陕西省重点研发计划项目(编号:2023-YBSF-390);陕西省交通科技项目(编号:23-97k、23-98k)。

Study on the Preparation and Properties of Waste Incineration Ash Slag-Based All-Solid Waste Lightweight Aggregate#br#

LI Tingting1 LUO Yuxin1 LI Yongtao1 JI Xiaoping2 SONG Houfu2   

  1. 1. Jiantou Management and Operation Co. ,Ltd. ,Shaanxi Transportation Holding Group,Xi′an 710075,China;
    2. School of Highway,Chang′an University,Xi′an 710064,China
  • Online:2026-04-15 Published:2026-05-13

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摘要: 为推进垃圾焚烧灰渣(WIS)的全组分资源化利用,本研究以飞灰地聚合物(FAP)为胶凝材料,协同利用
细炉渣(0~2. 36 mm)与粗炉渣(2. 36~4. 75 mm),通过常温挤压造粒工艺制备轻质集料,并采用正交试验方法系统探
究了FAP 掺量、细炉渣与粗炉渣比例及水灰比对轻质集料性能的影响规律。研究结果表明:常温挤压工艺可实现
WIS 全组分资源化利用,最优配比为FAP 掺量40%、细炉渣与粗炉渣比例5 ∶5、水灰比0. 28,此条件下轻质集料筒压
强度达14. 1 MPa,堆积密度为1 164 kg/ m3,吸水率为8. 6%,满足1200 密度等级要求,冻融质量损失率为17. 6%。极
差分析表明,各因素对性能影响的主次顺序为FAP 掺量、细炉渣与粗炉渣比例、水灰比。适量FAP 通过形成三维网络
凝胶包裹炉渣颗粒,显著提升材料密实度与强度;适宜的级配与水灰比对维持结构稳定性具有关键作用。最优配比
下Cr、Cd、Pb、Ni 浸出浓度分别为4. 69 μg/ L、0. 46 μg/ L、3. 62 μg/ L、1. 17 μg/ L,均低于《危险废物鉴别标准》限值,并
满足《地下水质量标准》(GB/ T 14848—2017)Ⅱ类标准限值,证实了FAP 对重金属离子具有显著固化效应。

关键词: 轻质集料 , 垃圾焚烧灰渣 , 全固废 , 力学强度 , 重金属浸出

Abstract: To promote the full-component resource utilization of waste incineration ash and slag (WIS),this study employed
fly ash-based geopolymer (FAP) as the cementitious material,synergistically utilizing fine slag (0~ 2. 36 mm) and
coarse slag (2. 36 ~ 4. 75 mm). Lightweight aggregates were prepared via an ambient-temperature extrusion granulation
process. Orthogonal experiments were conducted to systematically investigate the influence of FAP content,fine-to-coarse slag
ratio,and water-to-binder ratio on the properties of the lightweight aggregates. The results show that the ambient-temperature
extrusion process enables the full-component resource utilization of WIS. The optimal mix proportion was determined as 40%
FAP content,a fine-to-coarse slag ratio of 5∶5,and a water-to-binder ratio of 0. 28. Under these conditions,the lightweight aggregate
achieved a cylinder compressive strength of 14. 1 MPa,a bulk density of 1 164 kg/ m3,and a water absorption of
8. 6%,meeting the requirements for the 1200 density grade,with a freeze-thaw mass loss rate of 17. 6%. Range analysis indicated
that the order of factors affecting the properties primary and secondary order was FAP content,fine-to-coarse slag ratio,water-
to-binder ratio. An appropriate amount of FAP forms a three-dimensional network gel that encapsulates slag particles,significantly
enhancing material compactness and strength. Suitable gradation and water-to-binder ratio play a crucial role in maintaining
structural stability. Under the optimal mix proportion,the leaching concentrations of Cr,Cd,Pb,and Ni were 4. 69 μg/ L,
0. 46 μg/ L,3. 62 μg/ L,and 1. 17 μg/ L,respectively. These values are all lower than the limits specified in the Identification
Standards for Hazardous Wastes and meet the Class Ⅱ limits of the Quality Standard for Groundwater (GB/ T 14848—2017),
confirming the significant solidification effect of FAP on heavy metal ions.

Key words: lightweight aggregate,waste incineration ash and slag,all solid waste,mechanical strength,heavy metal leaching

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