Physical properties and microstructure of sustainable lightweight aggregates prepared from lead–zinc tailings and fly ash under different sintering regimes
Artikel i vetenskaplig tidskrift, 2025

Lead–zinc tailings (LZT), a low-value mining waste, pose significant environmental and health risks due to their massive accumulation. This study addresses the need for harmless and efficient treatment of LZT by successfully producing lightweight aggregates (LWA) from 100% solid waste (low-cost LZT and poor-quality fly ash) without secondary pollution. The relationship between sintering conditions and LWA properties was investigated, revealing that sintering temperature significantly influences LWA performance more than other parameters. Specifically, it is the core factor controlling particle density, while both sintering temperature and time strongly affect compressive strength. Microstructure analysis showed that over 50% of the total pore area consisted of pores with diameters of 100–1000 μm. Insufficient preheating or excessively high sintering temperatures led to the formation of pores larger than 1 mm, while extending sintering time from 20 to 40 min increased the proportion of 100–1000 μm pores. XRD and FTIR analyses indicated that strength development was attributed to the formation of aluminosilicate skeletons and feldspar phases during sintering. Life cycle assessment (LCA) revealed that sintering at 1100–1150 °C for 30–35 min optimally balances LWA strength, energy consumption, environmental impact, and cost. This study offers an innovative and eco-friendly strategy for low-energy utilization of multi-source solid waste.

Life cycle assessment

Solid waste utilization

Sintering optimization

Lead–zinc tailings

Lightweight aggregates

Författare

Jianxiang Huang

Wuhan University of Technology

Shouwei Jian

Wuhan University of Technology

Hongbo Tan

Wuhan University of Technology

Xiangguo Li

Wuhan University of Technology

Jian Huang

Wuhan University of Technology

Yang Lv

Wuhan University of Technology

Baodong Li

Chalmers, Arkitektur och samhällsbyggnadsteknik, Byggnadsteknologi

Xin Gao

Wuhan University of Technology

Bo Peng

Wuhan University of Technology

Xiwen Guan

Shenzhen Railway Investment and Construction Group Co. Ltd.

Materials and Structures/Materiaux et Constructions

1359-5997 (ISSN)

Vol. 58 7 242

Ämneskategorier (SSIF 2025)

Annan samhällsbyggnadsteknik

Husbyggnad

Infrastrukturteknik

Annan materialteknik

Teknisk mekanik

DOI

10.1617/s11527-025-02767-x

Mer information

Senast uppdaterat

2025-09-11