Jurnal Polimesin
Vol 22, No 1 (2024): February

Microcellulose From Pineapple Leaf Fiber as a PotentialSustainable Material: Extraction And Characterization

Putri Nawangsari (Universitas Riau)
Warman Fatra (Universitas Riau)
Aryandi Kusuma (Universitas Riau)
Muftil Badri (Universitas Riau)
Dedi Rosa P.C1 (Universitas Riau)
Dedy Masnur (Universitas Riau)

Article Info

Publish Date
29 Feb 2024

Abstract

Pineapple leaf fiber is consideredan agricultural waste during the harvesting process. Pineapple leaves are rich in cellulose, which made it applicable in many industrial applications. This study aims to extract and characterize microcellulose from pineapple leaf waste in Kampar district, Riau. Pineapple fibers were isolated by alkalization (5 % NaOH) at 70 ºC for 150 minutes, followed by bleaching treatment(3% H2O2) at 60°C for 60minutes. Microcellulosewascharacterized through various techniques, namely chemical composition analysis, Fourier transform analysis (FTIR), X-ray diffraction (XRD), and thermogravimetric analysis (DT/TGA). The results reveal that the extractedmicrocellulose has significantcellulose content (72.45%) with a crystallinity index of 73.48%. The FTIR spectra of microcellulose indicatethat alkalization and bleaching treatments removed lignin and hemicellulose in varying degrees. Moreover, the extracted microcelluloseshows high thermal stability, the maximum decompositionoccurredat 347 ºC (weight residue 16.37%).Pineappleleaf fiber in Kampar district, Riau, can be a source of microcellulose as a renewable, eco-friendly, and sustainable material for future industrial applications. 

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Journal Info
Jurnal Polimesin
Website

Abbrev

polimesin

Publisher

Politeknik Negeri Lhokseumawe

Subject

Automotive Engineering Control & Systems Engineering Engineering Materials Science & Nanotechnology Mechanical Engineering

Description

Mechanical Engineering - Energy Conversion Engineering - Material Engineering - Manufacturing Technology - Mechatronics - Machine and Mechanism Design - ...