Enhancing tensile strength and microstructural properties of solidified high-moisture dredged sediment through solid waste-based binder stabilization and basalt fiber reinforcement

WANG, Hongwei; Zhang, Jiahui; DONG, Longjun; Zentar, Rachid; Shi, Ying; SUN, Daoyuan

doi:10.1016/j.cscm.2025.e05752

articleCase Studies in Construction MaterialsJan 2, 2026GOLD OA

Enhancing tensile strength and microstructural properties of solidified high-moisture dredged sediment through solid waste-based binder stabilization and basalt fiber reinforcement

HWHongwei WANG JZJiahui Zhang LDLongjun DONG RZRachid Zentar YSYing Shi

Central South University · Institut Mines-Télécom · +2 more institutions

Indexed incrossrefdoaj

Abstract

The study of materials with good mechanical properties for backfilling Urban Underground Spaces (UUS), such as abandoned underground spaces and ground subsidence, has important practical significance for achieving urban safety. A binder developed with solid waste materials was employed to solidify dredged sediment, transforming it into a Liquefied Stabilized Backfill Material (LSBM) for UUS. This study investigates the reinforcing effect of Basalt Fibers (BF) on the Splitting Tensile Strength (STS) behavior of solidified dredged sediment treated with a waste-based binder. A comprehensive experimental program was conducted to assess the influence of BF content, BF length, curing time, initial moisture content,…

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Topics & keywords

Topics

Keywords

Basalt fiber
Ultimate tensile strength
Curing (chemistry)
Reinforcement
Ductility (Earth science)
Sediment

UN Sustainable Development Goals

Sustainable cities and communities

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