Influence of Ageing Time of Starch Gels Prior to Freeze–Thaw Cycles on the Properties of Pinhão Starch Hydrogel (Araucaria angustifolia)

Jucilene Sena dos Santos, B. Biduski, Rosana Colussi, Wladimir Hernandez Flores, Luciana Ruschel dos Santos
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Abstract

The ageing time of a starch gel can influence the structure of hydrogels as the reorganization of amylose–amylopectin can progressively change over time. This study evaluates the influence of ageing time prior to freeze–thaw cycles on pore formation, water absorption, and mechanical resistance of pinhão starch hydrogels. The hydrogels are prepared by starch gelatinization followed by ageing for 0, 3, 6, and 9 h before the freeze–thaw cycles. Immediately frozen gel (0 h) produces a hydrogel with a honeycomb structure with regular pores size while ageing (3, 6, and 9 h) created a spongy structure. The hydrogels aged for 0 and 3 h fragment after the compression test, while those aged for 6 and 9 h maintain firm and intact structures. The 0 h aged hydrogels have the lowest water absorption (520%) and the highest mechanical resistance (1407.50 g). The hydrogels aged for 3, 6, and 9 h show water absorption between 670% and 700% and mechanical resistance of 635.34–800.79 g. In conclusion, a minimum of 6 h gel ageing before freeze–thaw cycles is necessary to achieve a firm structure and ensure the required functional properties for practical application with pinhão starch.
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冻融循环前淀粉凝胶老化时间对平康淀粉水凝胶(Araucaria angustifolia)性能的影响
淀粉凝胶的老化时间会影响水凝胶的结构,因为随着时间的推移,淀粉-直链淀粉的重组会逐渐发生变化。本研究评估了冻融循环前的老化时间对pinhão淀粉水凝胶的孔隙形成、吸水性和机械阻力的影响。水凝胶的制备方法是先将淀粉糊化,然后在冻融循环前分别老化 0、3、6 和 9 小时。立即冷冻凝胶(0 小时)产生的水凝胶具有蜂窝状结构和规则的孔隙大小,而老化(3、6 和 9 小时)则产生海绵状结构。老化时间为 0 和 3 小时的水凝胶在压缩试验后会碎裂,而老化时间为 6 和 9 小时的水凝胶则能保持坚固完整的结构。老化 0 小时的水凝胶吸水率最低(520%),机械阻力最大(1407.50 克)。总之,在冻融循环之前至少要进行 6 小时的凝胶老化,才能获得牢固的结构,并确保品汉淀粉实际应用所需的功能特性。
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