Abstract

This research investigates the construction workability of fluidized waste soil for backfilling using waste soil, steel slag and cement at various steel slag replacement rates and moisture contents. The findings reveal that it is possible to make fluidized soil with standard fluidity, adjustable water secretion rate, density to specifications, and good filling qualities. Increasing both the slag replacement rate and the moisture content can increase the fluidity of soil, with the moisture content having a significantly larger impact on the fluidity than the slag replacement rate.

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