Thermal Properties’ Enhancement of PLA-Starch-Based Polymer Composite Using Sucrose

Massijaya, Sri Yustikasari and Lubis, Muhammad Adly Rahandi and Nissa, Rossy Choerun and Nurhamiyah, Yeyen and Kusumaningrum, Wida Banar and Marlina, Resti and Ningrum, Riska Surya and Sutiawan, Jajang and Hidayat, Iman and Kusumah, Sukma Surya and Karlinasari, Lina and Hartono, Rudi (2024) Thermal Properties’ Enhancement of PLA-Starch-Based Polymer Composite Using Sucrose. Polymers, 16 (8). p. 1028. ISSN 2073-4360

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Abstract

Polylactic-acid–starch-based polymer composite (PLA/TPS) has good thermal stability for biocomposites. However, the physical and mechanical properties of PLA/TPS do not meet the standards. It needed additives to enhance its physical and mechanical properties. The aim was to improve the physical and mechanical properties of PLA/thermoplastic starch using sucrose. In addition, this study evaluated the enhancement of thermal properties of PLA/thermoplastic starch using sucrose. This study used sucrose as an additive to enhance the PLA/TPS composite. The addition of sucrose inhibits the degradation of biocomposites. This means that thermal stability increases. The thermal stability increased because the degree of crystallinity increased with the addition of sucrose, which was also proven in the XRD result. The addition of sucrose caused the morphology of the biocomposite to have pores. The FESEM results showed that biocomposites with the addition of sucrose had pores and gaps. These gaps result from low adhesion between polymers, causing a decrease in the mechanical and physical properties of the sample. Based on the FTIR spectra, biocomposite PLA/TPS blends with the addition of sucrose still have many hydroxyl groups that will lead to attracting other molecules or ions, such as oxygen or water. This phenomenon affects the physical and mechanical properties of materials. The physical and mechanical properties increased with sucrose addition. The best composite was prepared using 3% sucrose. This is because sucrose has a crystalline structure that affects the properties of biocomposites. However, the addition of 3% sucrose was not as effective as that of neat PLA.

Item Type: Article
Subjects: Journal Eprints > Multidisciplinary
Depositing User: Managing Editor
Date Deposited: 10 Apr 2024 08:02
Last Modified: 10 Apr 2024 08:02
URI: http://repository.journal4submission.com/id/eprint/3743

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