Preparation and Performance Study of Magnetic-induced Quick-drying Starch Adhesives

FENG Yan; TANG Weixuan; LI Xianggang; ZHENG Hongli; YIN Qianmei

doi:10.19554/j.cnki.1001-3563.2026.03.007

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Packaging Engineering ›› 2026, Vol. 47 ›› Issue (3) : 62-68. DOI: 10.19554/j.cnki.1001-3563.2026.03.007

Advanced Materials

Preparation and Performance Study of Magnetic-induced Quick-drying Starch Adhesives

FENG Yan, TANG Weixuan, LI Xianggang^*, ZHENG Hongli, YIN Qianmei

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Abstract

The work aims to prepare magnetic-induced quick-drying starch adhesives with magnetic particles as drying accelerators to solve the problem of slow drying speed of starch adhesives and the decline in bonding ability of quick-drying starch adhesives after adding drying accelerators. The performance of magnetic-induced quick-drying starch adhesives was studied through experiments such as water loss rate measurement, bonding strength testing and rheological property analysis. Spherical magnetic particles, flaky magnetic particles and bentonite all had the effect of accelerating drying. Under natural drying conditions, compared with the base starch adhesives, the natural drying speed of starch adhesives with 15% spherical magnetic particles added was significantly improved. Under the induction of high-frequency alternating magnetic fields, spherical magnetic particles could significantly increase the drying speed of starch adhesives, while sheet-like magnetic particles were not significantly affected by electromagnetic fields. In addition, spherical magnetic particles could enhance the bonding strength of starch adhesives, reduce their viscosity, and improve their fluidity. Compared with starch adhesives with bentonite as the drying accelerator, starch adhesives with spherical magnetic particles added had better fluidity and a longer shelf life. Based on the superparamagnetism and magnetically induced heating characteristics of spherical nano-magnetic particles, starch adhesives with spherical magnetic particles added have excellent properties such as high bonding strength, fast drying speed and good fluidity. Starch adhesives with magnetic nanoparticles as drying accelerators have high research value and broad application prospects.

Key words

starch adhesive / drying accelerator / magnetic particle / rheological property

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FENG Yan, TANG Weixuan, LI Xianggang, ZHENG Hongli, YIN Qianmei. Preparation and Performance Study of Magnetic-induced Quick-drying Starch Adhesives[J]. Packaging Engineering. 2026, 47(3): 62-68 https://doi.org/10.19554/j.cnki.1001-3563.2026.03.007

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