Characterization and optimization of thermal properties of rice straw and Furcraea foetida fiber reinforced polymer composite for thermal insulation application

The majority of the materials used in the building insulation are non-biodegradable polymeric materials. The continuous use of these polymers will not only cause environmental pollution but can also trigger health hazards in living beings. Therefore, in this study a sustainable composite material is...

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Veröffentlicht in:Journal of Building Engineering 2023-11, Vol.78, p.107723, Article 107723
Hauptverfasser: Madival, Abhishek Sadananda, Shetty, Raviraj, Doreswamy, Deepak, Maddasani, Srinivasulu
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Sprache:eng
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Zusammenfassung:The majority of the materials used in the building insulation are non-biodegradable polymeric materials. The continuous use of these polymers will not only cause environmental pollution but can also trigger health hazards in living beings. Therefore, in this study a sustainable composite material is prepared to limit the consumption of polymers by reinforcing them with rice straw agro-wastes and Furcraea foetida based natural fibers. The thermal stability, conductivity, transmittance, resistance, specific heat capacity and the flammability properties of the fabricated composite are evaluated. It is observed from the study that the composite with 20 wt% of rice straw showed the lowest thermal conductivity of 0.128 W/m oC which is 29.67% lower compared to neat epoxy material and was thermally stable up to 248 °C. Also, the thermal transmittance of the composite was reduced by 29.66% and it showed a thermal resistance of 0.154 m2oC/W at a temperature of 70 °C. The composite with the highest concentration of rice straw showed maximum specific heat of 3.22 J/g oC and it showed lower flammability with an average burning rate of 5.67 mm/min. The hybridization of composite with rice straw (15 wt%) and Furcrea foetida (20 wt%) fiber improved the strength of the composite and also it showed thermal conductivity of 0.132 W/m oC and was thermally stable up to a temperature of 272 °C. •A sustainable composite material is prepared using rice straw agro-wastes and fiber extracted from Furcraea foetida plant leaves.•Composite with 20 wt% of rice straw showed a thermal conductivity of 0.128 W/m oC with specific heat capacity of 3.22 J/g oC.•The hybridization of rice straw composite with Furcrea foetida fiber improved its mechanical properties.•The rice straw and hybrid composites showed good fire resistance during flammability test.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2023.107723