| Summary: | 【Objective】The study aims to develop a moisturizing high-adhesion slow-release foliar fertilizer with a semi-interpenetrating polymer network structure and excellent adhesion, water absorption and slow release properties.【Method】Polyvinyl alcohol (PVA) and acrylic acid (AA) were used as raw materials to prepare water-absorbent resin, and semi-interpenetrating network technology used to interpenetrate urea aldehyde into the water-absorbing and water-retaining network to prepare moisturizing high-adhesion slow-release foliar fertilizer. The effects of mass ratio of polyvinyl alcohol to acrylic acid (mPVA/mAA) and addition amount of cross-linking agent on the water absorption property of foliar fertilizer and the effects of addition amount of water-absorbent resin on the adhesion and slow-release properties of foliar fertilizer were studied.【Result】When mPVA/mAA is 1 ∶ 2 and the addition amount of cross-linking agent is 0.5%, the prepared foliar fertilizer has the maximum water absorption rate, which is 68.5 g/g in tap water. When m(PVA+AA)/ m (Urea) = 2 ︰ 1, the retention rates of nitrogen and phosphorus of foliar fertilizer on cabbage leaves reach 80% and 40%, respectively; the release of nitrogen and phosphorus nutrients of leaf fertilizer achieves balance in 7-10 days, with good slow-release performance.【Conclusion】The research is of great significance to solve the problems of poor adhesion, no water absorption, and no slow-release properties of conventional foliar fertilizers.
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