Thermal studies on Arabic gum - carrageenan polysaccharides film

J. Jamaludin, F. Adam, R. A. Rasid, Zulkafli Hassan
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引用次数: 29

Abstract

The main objective of this work is to develop film and study the thermal characteristics of polysaccharides films at various concentration of carrageenan in the mixture by calculating activation energy of polysaccharides films. There were four (4) film samples of two polysaccharides combination; arabic gum (AG) and carrageenan (C) with different formulations; sample A, sample B, sample C and sample D prepared. Sample A film is the control sample that contained only arabic gum and distilled water (DI) with 40% weight arabic gum per volume DI water (w/v%). Meanwhile for sample B and C were prepared with concentration 40 w/v% of Arabic gum and two differents of carrageenan concentrations; 1 w/v% and 10 w/v% respectively. Polyethylene glycol 400 (PEG 400) as a plasticiser was added into sample D film. The sample films were thermally characterized using differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA) under nitrogen atmosphere. The major thermal transitions as well as, activation energies of the major decomposition stages were determined. Sample A and B films exhibited the highest (112.43 kJ/mol) and the lowest (102.89 kJ/mol) activation energy of thermal decomposition, respectively. The activation energies were lower at larger amounts of sulfate groups from carrageenan on the degradation reactions. The DSC trend for all samples shows two (2) major intense peaks recorded in the DSC thermograms; an endothermic transition at temperature around 100 ° C and followed by an exothermic transition at temperature around 300 ° C. The endothermic transition is due to the heat absorption for dehydration of water, H2O and the decomposition of samples process. Meanwhile, the exothermic transition is caused by the formation of H 2 O, CO and CH 4 in polysaccharide film from dehydration, depolymerisation and decomposition at the high-temperature stages. Chemical Engineering Research Bulletin 19(2017) 80-86
阿拉伯胶-卡拉胶多糖膜的热研究
本研究的主要目的是通过计算多糖膜的活化能,研究多糖膜在不同浓度卡拉胶混合物下的热特性。两种多糖组合的膜样有4个;不同配方的阿拉伯胶(AG)和卡拉胶(C);制备样品A,样品B,样品C和样品D。样品A是只含有阿拉伯胶和蒸馏水(DI)的对照样品,每体积DI水的阿拉伯胶重量为40% (w/v%)。样品B和C分别以40 w/v%的阿拉伯胶和两种不同浓度的卡拉胶配制;1 w/v%和10 w/v%。将聚乙二醇400 (PEG 400)作为增塑剂加入到样品D膜中。采用差示扫描量热法(DSC)和热重分析(TGA)在氮气气氛下对样品膜进行了热表征。测定了主要热解阶段的热转变和活化能。样品A和B的热分解活化能最高(112.43 kJ/mol),最低(102.89 kJ/mol)。卡拉胶中硫酸盐基团越多,反应的活化能越低。所有样品的DSC趋势显示在DSC热图中记录了两个主要的强烈峰;在100℃左右发生吸热转变,随后在300℃左右发生放热转变。吸热转变是由于水、H2O脱水和样品分解过程中的吸热作用。同时,多糖膜在高温阶段脱水、解聚和分解生成h2o、CO和ch4,引起放热转变。化工研究通报19(2017)80-86
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