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微包埋缓控释技术开发及释放机理研究进展 被引量:3

Research progress on development and release mechanism of microencapsulation controlled release technology
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摘要 结合研究结果和相关文献报道,对微包埋壁材的种类、微包埋制作工艺,以及微包埋释放机理进行了阐述和分析,重点介绍了微包埋工艺在现代肥料中的应用,并提出微包埋缓控释技术会成为缓控释肥料领域的研究重点。 Combining with the results of this research and related literature reports,the microencapsulation wall type,microencapsulation technology,and the microencapsulation release mechanism are expounded and analyzed,and the encapsulation process is mainly introduced,the application of fertilizers in modern and microencapsulation controlled release technology will become a research focus in the field of controlled release fertilizer.
作者 周建军 刘咏 王保明 化全县 刘丽 汤建伟 ZHOU Jian-jun;LIU Yong;WANG Bao-ming;HUA Quan-xian;LIU Li;TANG Jian-wei(National Centre of Research & Popularization on Calcium,Magnesium,Phosphate and Compound Fertilizer Technology,School of Chemical Engineering and Energy,Zhengzhou University,Zhengzhou 450001,China)
机构地区 郑州大学化工与能源学院国家钙镁磷复合肥技术研究推广中心
出处 《应用化工》 CAS CSCD 北大核心 2019年第1期184-187,共4页 Applied Chemical Industry
基金 国家重点研发计划项目(2016YFD0300805) 国家重大科技项目郑州大学培育基金(2015ZDPY004)
关键词 微包埋 缓控释 释放机理 肥料 microencapsulation controlled release release mechanism fertilizer
分类号 TQ449 [化学工程—化学肥料工业]
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  • 1Adeyeye, M. C., Mwangi, E., Katondo, B., Jain, A., Ichikawa, H., & Fukumori, Y. (2005). Dissolution stability studies of suspensions of prolonged-release diclofenac microcapsules prepared by the Wurster process: I. Eudragit-based formula- tion and possible drug-excipient interaction. Journal of Microencapsutation, 22, 333-342. 被引量:1
  • 2Adi, S., Adi, H., Chan, H.-K., Young, P. M., Traini, D., Yang, R., et al. (2008). Scan- ning white-light interferometry as a novel technique to quantify the surface roughness of micron-sized particles for inhalation. Langrnuir, 24, 11307-11312. 被引量:1
  • 3Allan-Wojtas, P., Truelstrup Hansen, L., & Paulson, A. T. (2008). Microstructural stud- ies of probiotic bacteria-loaded alginate microcapsules using standard electron microscopy techniques and anhydrous fixation. LWT- Foocl Science and Technol- ogy, 41,101-108. 被引量:1
  • 4Andersson Trojer, M., Li, Y., Abrahamsson, C., Mohamed, A., Eastoe, J., Holmberg, K., et al. (2013). Charged microcapsules for controlled release of hydrophobic actives. Part 1; encapsulation methodology and interfacial properties.Soft Matter, 9, 1468-1477. 被引量:1
  • 5Andrade, B., Song, Z., Li, J., Zimmerman, S. C., Cheng, J., Moore, J. S., et al. (2015). New frontiers for encapsulation in the chemical industry. ACS Applied Materials &Interfaces, 7, 6359-6368,. 被引量:1
  • 6Arshady, R. (2003). Microspheres, microcapsules and liposomes: Microcapsule patents and products. London: Citrus Books. 被引量:1
  • 7Bashaiwoldu, A. B., Podczeck, F., & Newton, J. M. (2004). The application of non- contact laser profilometry to the determination of permanent structural change induced by compaction of pellets: II. Pellets dried by different techniques. Euro- pean Journal of Pharmaceutical Sciences, 22, 55-61. 被引量:1
  • 8Bogdanowicz, K. A., Tylkowski, B., & Giamberini, M. (2013). Preparation and characterization of light-sensitive microcapsules based on a liquid crystalline polyester. Langmuir, 29, 1601-1608. 被引量:1
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2019年 第1期

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