Properties of cement mortar incorporating de-inking waste-water from waste paper recycling: Fid-Bau Portal

Properties of cement mortar incorporating de-inking waste-water from waste paper recycling

Yan, Shiqin / Sagoe-Crentsil, Kwesi / Shapiro, Gretta

Highlights ▸ Using de-inking waste-water significantly improves the workability of mortar mixes. ▸ De-inking waste-water can potentially be used as water reducing admixture. ▸ Using de-inking waste-water results in reduction of compressive strength and bulk density. ▸ De-inking waste-water induces slightly increase of drying shrinkage and water absorption.

Abstract This paper presents results of an investigation into the potential use of recycling paper mill waste-water to replace mixing water in cement mortar systems for manufacturing concrete masonry products. The physical and mechanical properties of mortar containing various amounts of de-inking waste-water were consequently investigated. A key finding of this study was that replacing mortar mixing water with waste-water significantly improved workability and consistency of cement mortar mixtures. In particular the flow of mortar mixtures increased with increase of waste-water content up to 50% and then levelled off when waste-water content exceeded 50%. Correspondingly, the flow of mortar mix with 100% waste-water replacement at water/cement ratio of 0.50 was found to be equivalent to that of the reference mortar mix with 100% potable water at water/cement ratio of 0.60, indicating potential use of de-inking waste-water as water reducing admixture. The enhanced workability arising from waste-water addition however induced changes in mechanical properties of the hardened material. Compared to reference mortar, replacing 10% and 100% potable water respectively resulted in 19% and 60% reduction of compressive strength, with a corresponding 5% and 16% drop in bulk density, and up to 19% increase in drying shrinkage. Also, water absorption and volume of permeable voids increased with increasing waste-water dosage, albeit marginally. The benefits derived from rheology improvements compared to compromises in mechanical properties due to de-inking waste-water addition strongly indicate clear potential of using de-inking waste-water in production of lightweight cementitious building and masonry elements.