作 者:
杨相东;李娟;孙明雪;乔丹;张建君;李春花
单 位:
中国农业科学院农业资源与农业区划研究所/农业农村部植物营养与肥料重点实验室
关键词:
包膜控释肥料;聚乙烯;膜层结构;孔隙参数;释放特性
摘 要:
【目的】包膜肥料控释膜层结构和孔隙性质直接影响其养分释放速率。研究包膜肥料膜层结构特征,可以明确膜层结构参数与养分释放速率的关系,揭示包膜肥料控释机制,为建立养分释放数理模型提供理论依据。【方法】以聚乙烯包膜肥料控释膜层作为研究对象,量化研究了聚乙烯喷涂控释膜层的结构特征参数。利用扫描电镜,观测了在不同放大倍数下,采用喷涂工艺制备的聚乙烯包膜肥料膜层的外表层、横断面和内表层特征;以压汞仪测定了膜上孔隙的大小和分布;采用泡点法研究了大孔隙的最大孔径。【结果】不同放大倍数下的扫描电镜观测结果表明,喷涂法制备的包膜肥料控释膜层外表面整体上光滑、平整、均匀、疏松,但局部存在少量孔隙,孔径主要分布在1000~50 nm的范围内;在放大倍数很高的情况下,整体上膜层无细微孔隙结构。控释膜层厚度约为60~100μm,断面形貌疏松无孔。膜层内表面粗糙,高低起伏不平、犬牙交错。膜壳材料堆密度为0.4~0.8 g/mL,低于聚乙烯密度,属于疏松结构。孔隙结构分析结果表明,聚乙烯控释膜层的中值孔径为4.5~5.3 nm,与对比的聚乙烯薄膜基本一致,说明两种膜分子链间的细微结构没有差异;但是聚乙烯控释膜层中存在占比18%的直径约为1000~50 nm的较大孔,孔径小于10 nm的间隙占82%,进一步说明占比少的大孔影响控释膜层释放性能。喷涂控释膜层总孔体积在0.4686~1.2260 mL/g,平均孔径在25.1~86.8 nm范围内,孔隙率为33.0%~50.6%,显著高于拉伸工艺制备的聚乙烯薄膜。释放期在1~6个月的包膜控释肥料,最大孔径在990~480 nm的范围,随包膜肥料释放期的增加,膜孔直径逐步减小,说明包膜控释肥料养分释放速率与其最大孔径存在内在联系。【结论】综合3种方法的测定结果,聚乙烯控释膜层可以看作是膜层均匀致密且局部有孔隙,膜壳直径3 mm,膜层厚度约为50μm,最大孔径为1μm,平均孔径为50 nm的密闭球形壳体。最大孔是水分和养分进出膜层的主要通道,决定了包膜肥料养分释放速率的快慢。
译 名:
Morphological structure and pore property of polyethylene controlled-release film sprayed on urea
作 者:
YANG Xiang-dong;LI Juan;SUN Ming-xue;QIAO Dan;ZHANG Jian-jun;LI Chun-hua;Institute of Agricultural Resources and Regional Planning,Chinese Academy of Agricultural Sciences/Key Laboratory of Plant Nutrition and Fertilizer,Ministry of Agriculture and Rural Affairs;
关键词:
coated controlled-release fertilizer;;polyethylene;;membrane structure;;pore parameters;;release characteristics
摘 要:
【Objectives】The morphology and pore properties of the controlled-release film directly affect the nutrient release rate of polyethylene(PE)-coated fertilizer. The study on them will help predicting the relationship between the structure parameters of PE films and nutrient release rate of a coated fertilizer more precisely.【Methods】Polyethylene coating fertilizer samples were all prepared by spraying process in the study. The surface morphology, pore structure and maximum membrane pore sizes of the obtained controlled-release fertilizers(CRFs) were quantitatively measured using scanning electron microscopy, mercury porosimeter and water immersion method.【Results】The films of CRFs were smooth, uniform and loose, a few of holes were observed, which were mainly distributed in the range of 1000–50 nm. The thickness of the controlled-release film was about 60–100 μm, and the inner surface of the film was rough. The total pore volume of the film was in range of 0.4686–1.2260 mL/g, and the average pore diameter was in range of 25.1–86.8 nm, the porosity rate was in range of 33.0%–50.6%, and the structure was loose. The maximum pore size of CRFs ranged from 990 to 480 nm with a release period of 1 to 6 months.【Conclusions】Comprehensively considering the results from the three measurement methods, the controlled-release PE film is generally an even and closed spherical shell, and about 50 microns in thickness. The membrane is roughly continuous and evenly compact with diameter of 3 mm.However, there are pores of average 50 nm in the partial position, and the maximum pore is about 1 μm. The maximum pores are the main pass of water and nutrient, determining the release rate of nutrients in the CRFs.
