Efect of Sugar Palm Fiber (SPF) to the Structural and Optical Properties of Bioplastics SPF/Starch/Chitosan/Polypropylene) in supporting Mechanical Properties and Degradation Performance


Jangong, Oktavianus Sardy and Heryanto, Heryanto and Rahmat, Roni and Mutmainna, Inayatul and Lobo Gareso, Paulus and Tahir, Dahlang (2019) Efect of Sugar Palm Fiber (SPF) to the Structural and Optical Properties of Bioplastics SPF/Starch/Chitosan/Polypropylene) in supporting Mechanical Properties and Degradation Performance. Journal of Polymers and the Environment.

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Abstract (Abstrak)

Recycling plastic waste by mix with natural polymers for bio-plastic packaging produces plastics with high mechanical properties and easily degradable. In this study, the relation between the structural and the optical properties of composite SPF/starch/chitosan/polypropylene to the mechanical properties and degradation performance were analyzed. Structural and optical properties of composite bioplastic SPF/Starch/Chitosan/Polypropylene have analyzed using X-Ray diffraction (XRD), and Fourier transforms infrared (FTIR) spectroscopy, respectively. The composition was varied: the ratio between starch and chitosan are 35/65, 50/50, and 65/35 with additional SPF for each ratio is 1%, 3%, and 5%. The SPF effectively enhances the tensile strength due to the SPF’s better dispersion and interaction in the starch/chitosan/polypropylene matrix. For SPF’s efect on the degradation performance, the ratio starch/chitosan 50/50 increase for 1% SPF is 87.23%, for 3% SPF is 92.59%, and for 5 SPF is 94.12%. The refractive index (n), extinction coefcient (k), dielectric functions (ε), and energy loss function (Im (−1/ ε)) determined from the quantitative analysis of FTIR spectra by using Kramers–Kronig (K–K) relations. The crystalline phase increases with increasing the amount of SPF in composite bioplastic SPF/Starch/Chitosan/Polypropylene for ratio starch/chitosan is 35/65, which consistent with the distance between the wavenumber (D) of trans-versal and longitudinal optical phonon vibration mode become wider. We found that a good correlation between optical properties, structural properties, mechanical properties, and degradation performance for ratio starch/chitosan 35/65 and 50/50 with SPF 1% and 3% in the composite. Besides, the FTIR spectra could be useful for determining the optical phonon vibration, dielectric function, and energy loss function of composite bioplastic SPF/Starch/Chitosan /Polypropylene. The degradation performance by additional polypropylene from plastic waste shows a potential solution for decreasing plastic waste in the world.

Item Type: Article
Subjects: Q Science > QC Physics
Depositing User: - Andi Anna
Date Deposited: 03 May 2021 05:43
Last Modified: 03 May 2021 05:43
URI: http://repository.unhas.ac.id:443/id/eprint/4347

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