A simple preparation of low water-soluble crosslinking starch-based foam containing palm oil: Thermo-physicochemical properties

IF 3.2 4区工程技术 Q2 CHEMISTRY, APPLIED

Journal of Cellular Plastics Pub Date : 2022-07-01 DOI:10.1177/0021955X221092874

T. Wongpreedee, Thidatip Panrot, P. Rojruthai, C. Prapruddivongs

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引用次数: 0

Abstract

A simple preparation method was established for a low water-soluble citric acid crosslinking starch-based foam containing palm oil. The method was performed by pouring the boiling citric acid solution into the starch compound unlike the citric acid starch crosslinking by conventional solution casting. Thermo-physicochemical properties of the starch-based foams were examined. The I3300/I1149 intensity ratio of non-citric acid-containing foam was higher, suggesting greater amounts of the available -OH groups. The addition of citric acid into the starch matrix exhibited weaker thermal stability that was attributed to the lower thermal stability of the substituted ester bonds. The increment of citric acid concentration increased thermoplastic starch foams densities as well as their cell wall thickness. No differences in moisture absorption behavior were observed after soaking in water, the non-citric acid-filled foam exhibited dissolution and changed from its original shape upon drying. Experimental results showed a promising alternative methodology to prepare low water-soluble citric acid crosslinked starch-based foam to replace conventional solution casting.

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含棕榈油的低水溶性交联淀粉基泡沫的简单制备:热物理化学性质

建立了一种制备含棕榈油的低水溶性柠檬酸交联淀粉基泡沫的简便方法。该方法不同于传统的溶液浇铸柠檬酸淀粉交联，而是将沸腾的柠檬酸溶液倒入淀粉化合物中。考察了淀粉基泡沫的热理化性质。不含柠檬酸泡沫的I3300/I1149强度比更高，表明可用的-OH基团数量更多。在淀粉基质中加入柠檬酸表现出较弱的热稳定性，这是由于取代酯键的热稳定性较低。柠檬酸浓度的增加增加了热塑性淀粉泡沫的密度和细胞壁厚度。非柠檬酸填充泡沫经水浸泡后吸湿性能无明显变化，干燥后呈现溶解变化。实验结果表明，制备低水溶性柠檬酸交联淀粉基泡沫是一种很有前途的替代方法。

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来源期刊

Journal of Cellular Plastics 工程技术-高分子科学

CiteScore

5.00

自引率

16.00%

发文量

审稿时长

3 months

期刊介绍： The Journal of Cellular Plastics is a fully peer reviewed international journal that publishes original research and review articles covering the latest advances in foamed plastics technology.