Use of reactive MgO-activated slag in high sulphide-bearing lead-zinc cemented backfill

Li Jie Guo, Wenchen Li, A. Pan, Liu Guangsheng, Wenyuan Xu
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Abstract

The long-term strength of cemented backfill mass with ordinary Portland cement binder generally decreases with sulphide content due to the formation of expansive phases such as gypsum. This paper investigates the potential of using commercial reactive MgO-activated ground granulated blast furnace slag (MgO-GGBS) in cemented backfill from high sulphide content lead-zinc mine tailings to prevent long-term strength loss. The study focuses on the effect of MgO-GGBS content and the reactive MgO dosage on the unconfined compressive strength (UCS) and the shrinkage/expansion rate. The test results showed that the 28-day UCS of cemented backfill achieved the target strength (≧1.0 MPa) with 14 wt% MgO-GGBS content, and the reactive MgO dosage affected the long-term UCS and the shrinkage/expansion rate of cemented backfill body. The main hydration products when using MgO-GGBS were hydrated calcium/magnesium silicate (C-S-H/M-S-H) and hydrotalcite-like phases (Ht). Cemented backfill has a porous opening microstructure. Micro-expansion produced by appropriate MgO content can increase microstructure density, which increases short- and longterm UCS of cemented backfill body, while sustained expansion produced by excessive MgO could destroy the MgO-GGBS microstructure, decreasing the UCS of cemented backfill. We conclude that the mechanical and extension properties of cemented backfill body are highly dependent on the reactive MgO content of the MgO-GGBS. The optimum value of responsive MgO content of MgO-GGBS was 2.5–7.5 wt% to achieve the long-term stability of cemented backfill.
活性氧化镁活性渣在高含硫铅锌胶结充填体中的应用
普通硅酸盐水泥粘结剂胶结充填体的长期强度一般随着硫化物含量的增加而降低,主要是由于石膏等膨胀相的形成。研究了在高硫化物铅锌矿尾砂胶结充填体中应用活性氧化镁活化的矿粉颗粒(MgO-GGBS)防止长期强度损失的可行性。研究了MgO- ggbs含量和活性MgO掺量对无侧限抗压强度(UCS)和收缩膨胀率的影响。试验结果表明,MgO- ggbs含量为14wt %时,胶结充填体的28天抗压强度达到目标强度(≧1.0 MPa),活性MgO掺量影响胶结充填体的长期抗压强度和收缩膨胀率。MgO-GGBS的主要水化产物是水合硅酸钙/镁(C-S-H/M-S-H)和类滑石水相(Ht)。胶结充填体具有多孔开口微观结构。适当MgO含量产生的微膨胀可以增加胶结充填体的微观结构密度,从而增加胶结充填体的短期和长期UCS,而过量MgO产生的持续膨胀会破坏MgO- ggbs微观结构,降低胶结充填体的UCS。研究结果表明,胶结充填体的力学性能和拉伸性能与MgO- ggbs的活性MgO含量密切相关。为实现胶结充填体的长期稳定性,MgO- ggbs的响应性MgO含量的最佳值为2.5 ~ 7.5 wt%。
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