1. Implementation of paper mill waste as partial replacement material
- Author
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Chandandeep Singh Raina, lowast, Anita Jessie J, S. Sankar Ganesh, and Peerzada Danish
- Subjects
Cement ,Multidisciplinary ,business.industry ,Cost effectiveness ,Paper mill ,Pulp and paper industry ,Compressive strength test ,law.invention ,Portland cement ,Compressive strength ,law ,Statistical analysis ,Response surface methodology ,business ,Mathematics - Abstract
Objectives: The objective of the study was to study the compressive strength of the partially replaced paper mill waste in cement. Methods/ Statistical analysis: The concrete cube specimen were prepared for compressive strength test. In this study, the cement has been replaced with 20%, 30%, 40% and 50% of hypo sludge. The specimens were cured for two different ages (7 days and 28 days) and tested for compressive strength. The quadratic polynomial prediction equation was proposed using Response Surface Methodology (RSM). The prediction model was developed using the experimental output results. Thus, the prediction model facilitates the further research work to be conducted by researchers on paper mill waste replacement. The rate analysis was also further carried out to show the cost effectiveness of using the waste replacement in cement. Findings: The test was conducted on the compressive strength (7 days and 28 days) of control specimen (0%) and partial replacement of 20%, 30%, 40% and 50% of cement using the hypo sludge. Thus, 20% replacement of cement using hypo sludge has shown good compressive strength than the control specimen. The cost of 20% paper mill waste was less when compared to the cost of control specimen. Novelty/ Applications: The compressive strength of 20% partial replacement of paper mill waste in cement can be used in further construction. The prediction model can be used to predict the future compressive strength of partially replaced paper mill waste concrete. Keywords: Ordinary Portland cement; Paper mill waste; Hypo sludge; Partial replacement; RSM
- Published
- 2020