Indian Journal of Engineering & Materials Sciences

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Thermo-Catalytic Conversion of Waste Thermocol and Acrylic to Paint


Affiliations
1 CSIR-National Environmental Engineering Research Institute, Nagpur- 440020, Maharashtra, India

Waste thermocols and waste acrylic contribute towards environmental pollution due to their non-biodegradability, and improper disposal leads to respiratory and digestive problems in the human beings. This study proposes a thermo-chemical reutilization technique for these materials for the synthesis of paint-solvent. Paint solvents were experimentally synthesized using waste thermocol and spent acrylic via thermo-chemical processing. These solvents were further utilized to form paint with iron oxide and other pigments as pigment and raw thermocol as a binder. FTIR spectroscopy was performed to identify the organic functional groups in the liquid fraction obtained after thermochemical treatment. The liquid fraction obtained after the thermo-chemical treatment was uniformly mixed with a binder and pigment, and the resulting synthesized paint, whose characteristics were compared with those of conventional polystyrene paint. The use of waste thermocol and spent acrylic in the synthesis of paint not only reduces the amount of waste but also has the potential to replace resins and solvents in conventional paints derived from refined crude oil by products. This study provides a promising solution to this waste management problem and highlights the potential use of waste materials in paint synthesis.

Keywords

Waste Thermocol, Waste Acrylic, Paint Preparation, FTIR
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  • Thermo-Catalytic Conversion of Waste Thermocol and Acrylic to Paint

Abstract Views: 69  | 

Authors

Atul D Hemne
CSIR-National Environmental Engineering Research Institute, Nagpur- 440020, Maharashtra, India
Ganesh R kale
CSIR-National Environmental Engineering Research Institute, Nagpur- 440020, Maharashtra, India

Abstract


Waste thermocols and waste acrylic contribute towards environmental pollution due to their non-biodegradability, and improper disposal leads to respiratory and digestive problems in the human beings. This study proposes a thermo-chemical reutilization technique for these materials for the synthesis of paint-solvent. Paint solvents were experimentally synthesized using waste thermocol and spent acrylic via thermo-chemical processing. These solvents were further utilized to form paint with iron oxide and other pigments as pigment and raw thermocol as a binder. FTIR spectroscopy was performed to identify the organic functional groups in the liquid fraction obtained after thermochemical treatment. The liquid fraction obtained after the thermo-chemical treatment was uniformly mixed with a binder and pigment, and the resulting synthesized paint, whose characteristics were compared with those of conventional polystyrene paint. The use of waste thermocol and spent acrylic in the synthesis of paint not only reduces the amount of waste but also has the potential to replace resins and solvents in conventional paints derived from refined crude oil by products. This study provides a promising solution to this waste management problem and highlights the potential use of waste materials in paint synthesis.

Keywords


Waste Thermocol, Waste Acrylic, Paint Preparation, FTIR