Use of Citrus Peel Waste as Bio-Fillers in Polyester Resin Composites: Analysis of Mechanical Properties
Mariola Jureczko, Małgorzata Dziekońska, Tomasz Czapla, Bożena Gzik-Zroska, Kamil Joszko

TL;DR
This study explores using citrus peel waste as eco-friendly fillers in polyester resin composites, showing improved hardness but reduced tensile strength.
Contribution
The novelty lies in evaluating citrus peel waste as a sustainable bio-filler in polymer composites for non-structural applications.
Findings
Citrus peel bio-fillers increased Shore D hardness, with lemon peel achieving the highest at 83.8 ShD.
Tensile strength decreased with most fillers, but 10% key lime achieved similar peak load to the neat resin.
5% grapefruit filler increased stiffness by 10%, indicating effective reinforcement at this concentration.
Abstract
In the context of global trends in sustainability and the circular economy (CE), this article aims to investigate the potential of microparticles derived from citrus peel waste (grapefruit, key lime, lemon, and orange), constituting approximately 50% of the fruit weight, as eco-friendly bio-fillers in polymer composites, thereby reducing the consumption of petrochemical resins. The composites were fabricated by gravity casting using polyester resin (PR) as the matrix at filler concentrations of 2.5%, 5%, and 10% by weight. Functional properties were assessed using static tensile testing (measuring Peak Load, Peak Stress, and Young’s modulus) and Shore D hardness testing. The incorporation of unprocessed fillers generally decreased tensile strength (Peak Stress REF: 31.48 MPa), attributed to poor interfacial adhesion. The lowest Peak Stress value was recorded for the 2.5O composite…
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Taxonomy
TopicsNatural Fiber Reinforced Composites · Nanocomposite Films for Food Packaging · Lignin and Wood Chemistry
