Characterization Studies on New Cellulosic Fiber Extracted from Leucaena Leucocephala Tree

The present world faces critical issues such as global warming, sea-level rise, and drastic change in the climate pattern due to the emission of greenhouse gases. Large-scale use and disposal of hazardous plastics contribute significantly to the present scenario and it becomes essential to use natur...

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Bibliographic Details
Published in:Journal of natural fibers 2023-04, Vol.20 (1)
Main Authors: Gopinath, R., Billigraham, P., Sathishkumar, T.P.
Format: Article
Language:English
Subjects:
Calorimetry
Cellulose
Cellulose fibers
chemical properties
Climate change
crystallinity index
Differential scanning calorimetry
Fibers
Field emission microscopy
Field emission spectroscopy
Fourier transforms
Global warming
Greenhouse effect
Greenhouse gases
Infrared spectroscopy
Leucaena leucocephala
Leucaena leucocephala fiber
Mechanical properties
Modulus of elasticity
Polymers
Scanning electron microscopy
Spectrum analysis
Surface properties
Synthetic fibers
Tensile strength
Thermal stability
Thermogravimetric analysis
X-ray diffraction
X-ray spectroscopy
化学性质
机械性能
热稳定性
纤维素
结晶度指数
银合欢纤维
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Summary:The present world faces critical issues such as global warming, sea-level rise, and drastic change in the climate pattern due to the emission of greenhouse gases. Large-scale use and disposal of hazardous plastics contribute significantly to the present scenario and it becomes essential to use naturally derived materials for making plastics. Natural fibers were found to possess the inherent characteristics required for reinforcing the polymer. In this work, one such novel cellulosic fiber derived from the bast of Leucaena leucocephala was identified and characterized using tests such as chemical, tensile, X-ray diffraction, Fourier transform infrared spectroscopy, Thermogravimetric, Differential scanning calorimetry, Energy-dispersive X-ray spectroscopy, and Field emission scanning electron microscopy. The presence of high cellulose (59.03 wt.%) with high crystallinity index (63.10%) contributes to high tensile strength(415-693 MPa) and high tensile modulus (9.90-13.10 GPa) of the Leucaena leucocephala fiber (LLF). From thermogravimetric analysis, LLF was observed to be thermally stable up to 188.20°C and activation energy of 64.22 kJ/mol. The morphological analysis of LLF revealed the existence of honeycombed porous surface characterized with serrations, and this facilitates better bonding characteristics with polymer. Lower density, mechanical properties, and better thermal stability make LLF a suitable alternate for synthetic fibers while making composites.
ISSN:1544-0478
1544-046X
DOI:10.1080/15440478.2022.2157922