Development and optimization of pearl millet waste biocomposite ceiling tiles: a waste management approach
Khalid Hussain Ansari, Srikanta Routroy, Rahul Samyal, Shivasheesh Kaushik

TL;DR
This study creates eco-friendly ceiling tiles using pearl millet waste and gypsum, offering a sustainable alternative with good thermal and structural properties.
Contribution
The study introduces pearl millet waste biocomposites as a novel, sustainable alternative to gypsum-based ceiling tiles.
Findings
Optimal mix for minimum thermal conductivity was 45% PMSC and 10% gypsum at 12 mm thickness.
Optimal mix for maximum flexural strength was 55% PMSC and 30% gypsum at 14 mm thickness.
Regression models showed high predictive accuracy (94.44%-96.90%) with low error margins.
Abstract
The present study aims to develop and optimize sustainable biocomposite ceiling tiles by partially replacing gypsum with pearl millet waste, combined with Waste Wheat Flour (WWF) and waste paper. It aims to provide a sustainable alternative to conventional gypsum-based product, maintaining thermal insulation and flexural strength. Taguchi method was employed for experimental design, by varying key parameters such as gypsum, Pearl Millet Seed Covering (PMSC), and ceiling tile thickness. The signal-to-noise (S/N) ratio was used to identify the optimal composition and Analysis of Variance (ANOVA) with regression analysis determines the significance of each factor on thermal conductivity and flexural strength. The optimized composition for minimum thermal conductivity (0.065 W/m·K) was identified as 45% PMSC and 10% gypsum at 12 mm thickness. For maximum flexural strength (1.24 MPa), the…
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Taxonomy
TopicsInnovations in Concrete and Construction Materials · Natural Fiber Reinforced Composites · Innovative concrete reinforcement materials
