Abstract
This study aims to compare the characteristics of mechanical and water vapor permeability of edible film based on low pectin methoxyl from cocoa skin with glycerol and sorbitol as plasticizer. In the research also added CaCO3 filler with the weight variation of 0; 0.2; and 0.4 gr. Pectin from cocoa peel was isolated by extraction use ammonium oxalic at a temperature of 85oC, pH of 3.6 for 60 minutes. An edible film synthesized at a temperature of 85oC to the agitation time of 50 minutes. 200 mesh of pectin used with the variation of glycerol and sorbitol plasticizer concentration are 1, 2 and 3% in volume. Edible films produced were dried at a temperature of 55oC for 6 hours. The results of the study obtained in 0.2 gr CaCO3 concentration and 1% glycerol of edible films has a tensile strength of 0.3267 mpa, percent elongation of 12.84%, modulus young of 2.5441 mpa, and the water vapor permeability of 4.1676 g/m2.day. While in 0.4 gr CaCO3 concentration and 1% sorbitol of edible films has a tensile strength of 6.511 mpa, percent elongation of 2.419%, modulus young of 269.119 mpa, and the water vapor permeability of 5.583 g/m2.day. Based on percent elongation characteristics, glycerol plasticizer made higher elasticity than sorbitol plasticizer. While the addition of filler able to increase tensile strength two times larger than without filler.
Highlights
The characteristics of a packaging material influenced by the edible film composition
The results showed increased elongation and decrease of the edible film tensile strength significantly
Mechanical Characteristic The mechanical properties test is aimed to find out the tensile strength, modulus young and the percent of elongation of edible film, so it can be known that the influence of filler plasticizer weight and CaCO3 concentration with various kinds of plasticizer
Summary
The characteristics of a packaging material influenced by the edible film composition. One type of polysaccharide that is used in the manufacture of edible film is pectin. According to Olivas et al (2009) low methoxyl pectin commonly used for the manufacture of edible coating due to the ability to form a strong gel reacts with multivalent cation such as calcium. Low methoxyl pectin can be obtained from the waste cocoa peel. Cocoa peel contains 18% pectin, 2% tannin, anthocyanin 1.04% and the rest is water (Efendy et al, 2013) so that it can be utilized as an alternative to making edible films. Low Methoxyl Pectin (LMP) can be obtained from the peel of cocoa (Theobroma cacao l.) by means of extraction using ammonium oxalate (Erika, 2013). Other studies conducted by Efendy et al (2013) about edible film using pectin from cocoa peel
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