Studi Pembuatan Edible Film Gel Okra (Abelmoschus esculentus L.) dengan Penambahan Pati Singkong

Food Technology and Halal Science Journal Pub Date : 2021-05-07 DOI:10.22219/FTHS.V4I1.15826

Siti Muslimah, Warkoyo Warkoyo, S. Winarsih

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引用次数: 2

Abstract

Edible film is an organic material packaging that has plastic-like properties but is biodegradable. The components of the edible film include hydrocolloids. Okra gel is a long chain hydrocoloid polysaccharide with a high molecular weight and a constituent protein containing both hydrophilic and hydrophobic substances. The hydrophilic characteristics are used to improve the physical properties of solubility. Meanwhile, hydrophobic characteristics are used to improve barrier properties (WVTR). Okra (Abelmoschus esculentus L.) is one of the cultivated plants that is currently underutilized by the community but has benefits and high nutritional content. The addition of cassava starch aims to increase the strength of the edible film. The purpose of this study was to determine the use of okra gel proportion and cassava starch concentration in making edible films which can produce edible film characteristics that meet the standards.This study used a factorial randomized block design (RBD). The first factor is the ratio of okra gel and distilled water (1: 3; 1: 1; 3: 1, 1:0). The second factor is the concentration of cassava starch (2.5% and 5% (w / v)). The parameters tested were yield of raw materials, thickness, solubility, transparency, tensile strength, elongation, WVTR (Water Vapor Transmison Rate) and SEM (Scanning Electron Microscopy).The results showed that there was no interaction between okra gel and cassava starch. However, the comparison of okra gel and distilled water had a significant effect on the transparency value with an average of 0.89-1.60 A546 / mm. The concentration of cassava starch has a significant effect on transparency 0.89-1.60 A546 / mm, tensile strength 0.97-2.33%. Edible film with the best treatment was obtained in G2P1 treatment (ratio of okra gel and distilled water (1: 1) and 2.5% cassava starch) with a thickness of 0.08mm, transparency 0.58A546 / mm, WVTR 3.87g / m2 / 24h, elongation 9.24%, tensile strength 0.74MPa and solubility 23.56%. And SEM analysis results show uneven morphology.

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彭华丹食用膜凝胶秋葵的研究(英文)

可食用薄膜是一种有机材料包装，具有类似塑料的特性，但可生物降解。可食用薄膜的成分包括水胶体。秋葵凝胶是一种高分子量的长链水胶体多糖，是一种含有亲水性和疏水性物质的组成蛋白。亲水特性用于改善溶解度的物理性质。同时，利用疏水特性提高了材料的势垒性能。秋葵(Abelmoschus esculentus L.)是目前未被充分利用但具有较高营养价值的栽培植物之一。添加木薯淀粉的目的是增加可食用薄膜的强度。本研究的目的是确定利用秋葵凝胶的比例和木薯淀粉的浓度来制作可食用薄膜，从而生产出符合标准的可食用薄膜特性。本研究采用因子随机区组设计(RBD)。第一个因素是秋葵凝胶与蒸馏水的比例(1:3;1: 1;3:1, 1:0)。第二个因素是木薯淀粉的浓度(2.5%和5% (w / v))。测试的参数包括原料的收率、厚度、溶解度、透明度、抗拉强度、伸长率、WVTR(水蒸气透过率)和SEM(扫描电子显微镜)。结果表明，秋葵凝胶与木薯淀粉之间不存在相互作用。而秋葵凝胶与蒸馏水对透明度值的影响显著，平均为0.89 ~ 1.60 A546 / mm，木薯淀粉浓度对透明度0.89 ~ 1.60 A546 / mm、抗拉强度0.97 ~ 2.33%有显著影响。以G2P1处理(秋葵凝胶与蒸馏水的比例为1:1，木薯淀粉的比例为2.5%)获得最佳食用膜，膜厚0.08mm，透明度0.58A546 / mm, WVTR 3.87g / m2 / 24h，伸长率9.24%，抗拉强度0.74MPa，溶解度23.56%。SEM分析结果显示其形貌不均匀。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Food Technology and Halal Science Journal

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