Functional Additives Enhance Freeze–Thaw Stability and Retard Retrogradation in Wheat–Potato Starch Gels and Crystal Dumpling Wrappers
Yongmei Mo, Qingfei Duan, Fuhan Xie, Yujia Wei, Huabing Zhai, Shudan Tan, Fengwei Xie, Pei Chen

TL;DR
This study shows how functional additives improve the stability and texture of crystal dumpling wrappers during freezing and storage.
Contribution
The paper introduces a systematic evaluation of additives to enhance freeze–thaw stability and reduce retrogradation in wheat–potato starch gels.
Findings
Guar gum significantly improved freeze–thaw stability across all cycles with minimal dehydration shrinkage.
Hydroxypropyl distarch phosphate showed the strongest inhibition of starch retrogradation.
Composite phosphates enhanced water retention and produced a softer gel texture over time.
Abstract
Crystal dumpling wrapper production is hampered by rapid surface dehydration, severe freeze-cracking propensity, and storage-induced retrogradation. Modulation of blended starch properties through functional additives was investigated. This study systematically evaluated the impact of hydroxypropyl distarch phosphate (HPDSP), trehalose (TRE), guar gum (GG), and composite phosphates (CP) on physicochemical and structural properties of wheat–potato starch composite gel. Concurrently, the effects of additives on the cracking rate of crystal dumplings and texture of wrappers were investigated. Analysis revealed that apparent viscosity was increased by all additives except CP. Different additives significantly improved the freeze–thaw stability of the composite gel during the first three cycles. GG maintained enhanced freeze–thaw stability throughout the entire freeze–thaw cycle (dehydration…
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Taxonomy
TopicsFood composition and properties · Food Drying and Modeling · Microencapsulation and Drying Processes
