Effect of aluminium sulphate Al2(SO4)3 treatment on paper waste as a fine aggregate partial replacement in lightweight cement mortar

Abstract

In recent years there has been increasing interest in the use of recycled paper waste in the production of concrete to reduce environmental pollution. This study aims to investigate the use of raw paper waste to produce lightweight cement mortar and to study the effect of the aluminium sulphate treatment of raw paper waste on the compressive strength, absorption ratio and hardened density of mortar. This study used raw paper waste as a replacement for fine aggregate, with percentages of 5%, 10%, 15%, 20% and 30%. The same percentages were examined for the aluminium-sulphate-treated paper waste. The study aims to achieve a similar workability and fixed flow rate for all mixes; therefore, the water–cement ratios were changed for mixes containing paper waste to balance the water absorbed by the paper waste. The study found that the treatment of paper waste with aluminium sulphate helps to reduce the amount of water absorbed by the paper waste and also reduces the amount of water required to maintain its workability, with a higher paper-waste content requiring a larger water content to achieve a similar workability. It was found that the higher the paper-waste content, the lower the wet and dry densities. The compressive strength at both an early and mature age decreased with the increased content of paper waste. Finally, the treatment of paper waste with aluminium sulphate increases the early age compressive strength for similar replacement percentages of up to 19%.