Enhancing structural and thermal properties of low-density polyethylene waste using dolomite and calcite mineral fillers

Sameh Attia-Essaies; Asma Nouira; Mehdi Ismail; Najoua Barhoumi; Aymen Ben Ahmed; Ezzedine Srasra

doi:10.1051/mattech/2026010

Special Issue on ‘Innovative Materials and Processes for Industrial and Biomedical Applications’, edited by Naoufel Ben Moussa, Mohamed Ali Terres, Sami Chatti, Farhat Ghanem and Guénaël Germain

Issue		Matériaux & Techniques Volume 114, Number 3, 2026 Special Issue on ‘Innovative Materials and Processes for Industrial and Biomedical Applications’, edited by Naoufel Ben Moussa, Mohamed Ali Terres, Sami Chatti, Farhat Ghanem and Guénaël Germain


Article Number		303
Number of page(s)		9
DOI		https://doi.org/10.1051/mattech/2026010
Published online		25 March 2026

Matériaux & Techniques 114, 303 (2026)

Original Article

Enhancing structural and thermal properties of low-density polyethylene waste using dolomite and calcite mineral fillers

Sameh Attia-Essaies¹, Asma Nouira¹, Mehdi Ismail², Najoua Barhoumi³^,4^*, Aymen Ben Ahmed¹ and Ezzedine Srasra¹

¹ Composite Materials and Clay Minerals Laboratory, National Center for Research in Materials Science, Technopole of Borj Cedria, Slimane 8027, Tunisia
² Useful Materials Valorization Laboratory, National Center for Research in Materials Science, Technopole of Borj Cedria, Slimane 8027, Tunisia
³ Laboratoire de Mécanique, Matériaux et Procédés, Ecole Nationale Supérieure d’Ingénieurs de Tunis, Université de Tunis, 5, Avenue Taha Husseïn, Montfleury, Tunis 1008, Tunisia
⁴ Institut Préparatoire aux Etudes d’Ingénieurs d’El-Manar, Université d’El-Manar, B.P 244, CNRS, UMR 5223, Tunis 2092, Tunisia

^* e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

Received: 24 August 2025
Accepted: 16 January 2026

Abstract

This study investigates the enhancement of waste low-density polyethylene (WLDPE) properties through the incorporation of mineral fillers, specifically dolomite and calcite. Addressing WLDPE waste is critical for reducing environmental impact, and mineral fillers offer a cost-effective and sustainable solution. WLDPE/dolomite and WLDPE/calcite composites were prepared using a solvent-based method at varying filler contents. X-ray diffraction (XRD) analysis confirmed the presence of calcite and dolomite crystalline phases within the polymer matrix. Fourier transform infrared spectroscopy (FTIR) revealed the persistence of characteristic bands of both resin and fillers, with slight shifts indicating interfacial interactions between polymer functional groups and mineral surfaces. Differential scanning calorimetry (DSC) demonstrated a moderate improvement in thermal stability: the decomposition temperature of neat WLDPE (412 °C) increased by 8 °C for 5% calcite and by 6 °C for 10% dolomite, while beyond 15% filler content, the effect became negligible. These findings suggest that weak interactions, consisting probably of van der Waals forces or hydrogen bonds, contribute to slight structural and thermal enhancements. This approach highlights the potential of mineral fillers to upgrade recycled WLDPE, offering a promising pathway for sustainable plastic waste management.

Key words: dolomite / calcite / waste low density polyethylene / composite / thermal stability

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