Open AccessASSESSING THE SUITABILITY OF TIGER NUT FIBRE FOR STRUCTURAL APPLICATIONS
Author(s) -
U. S. Okorie,
Ubong Williams Robert,
Ubong Iboh,
Grace Umoren
Publication year - 2020
Publication title -
journal of renewable energy and mechanics
Language(s) - English
Resource type - Journals
eISSN - 2714-6219
pISSN - 2614-8315
DOI - 10.25299/rem.2020.vol3.no01.4417
Subject(s) - materials science , raw material , flexural strength , compressive strength , thermal conductivity , thermal diffusivity , nut , composite material , slurry , filler (materials) , pulp and paper industry , chemistry , physics , organic chemistry , structural engineering , quantum mechanics , engineering
In this work, the properties of the composite produced from waste carton with various tiger nut fibre contents having cassava starch slurry as binder were investigated. The results obtained showed the ranges of the mean thermal conductivity, bulk density, specific heat capacity, thermal diffusivity, thermal absorptivity, nailability, flexural strength and compressive strength values to be (0.0447 – 0.0603) Wm-1K-1, (683.62 – 746.32) kgm-3, (1439.811 – 1840.554) J/kg/K, (5.612 - 3.553) 10-8 m2s-1, (25.456 – 31.993) m-1, (23.9 – 100)%, (1.58 – 1.86) MPa and (2.16 – 2.78) MPa respectively between 8.3% and 43.1% of the fibre content. It was generally observed that with a choice variation in the fibre content, the performance of the developed board can be optimized for structural applications. Hence, instead of discarding the fibre as waste, recycling it can help to provide raw material for the production of cost effective and environmentally friendly materials. This will in turn reduce health risk caused by environmental pollution due to improper waste disposal practice of such material.