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第 2 期李丽霞，等: 聚氨酯应用于缓控释肥料无溶剂包膜的研究进展 ·275·

[39] MARUVADA S, WYNNYK N P, XING B. Cross-linked polyols for liquefied starch[J]. Progress in Organic Coatings, 2020, 147: 105759.
controlled release fertilizers: US20120111077[P]. 2012-05-10. [58] MARKUSCH P H, CLINE R L, SARPESHKAR A M, et al.
[40] BORTOLETTO-SANTOS R, RIBEIRO C, POLITO W L. Controlled Polyurethane encapsulated fertilizer having improved slow-release
release of nitrogen-source fertilizers by natural-oil-based properties: US6364925[P]. 2002-04-02.
poly(urethane) coatings: The kinetic aspects of urea release[J]. [59] ZHANG X, JIANG Y H, JIA C, et al. Preparation and
Journal of Applied Polymer Science, 2016, 133(33): 43790. characterization of polyurethane based on dimer acid for
[41] BORTOLETTO-SANTOS R, GUIMARÃES G G F, JUNIOR V R, et environment-friendly controlled release fertilizers[J]. Polymer-
al. Biodegradable oil-based polymeric coatings on urea fertilizer: N Plastics Technology and Materials, 2019, 58(14): 1571-1584.
release kinetic transformations of urea in soil[J]. Scientia Agricola, [60] OGLE J M, SIMS J D. Controlled release fertilizer composition:
2020, 77(1): e20180033. US7771505[P]. 2010-08-10.
[42] SUN S L, WANG W, LIU F, et al. Coating layer preparation with [61] OGLE J M, SIMS J D. Controlled release fertilizer composition:
mixed vegetable oil and nutrient release regulation of fertilizer[J]. US8741022[P]. 2014-06-03.
European Polymer Journal, 2019, 120: 109194. [62] WYNNYK N P, STELMACK E G, BABIAK N M, et al. Controlled
[43] DA CRUZ D F, BORTOLETTO-SANTOS R, GUIMARÃES G G F, release fertilizer and method for production thereof: US
et al. Role of polymeric coating on the phosphate availability as a 20040020254[P]. 2004-02-05.
fertilizer: Insight from phosphate release by castor polyurethane [63] TIAN H Y, LIU Z G, ZHANG M, et al. Bio-based polyurethane,
coatings[J]. Journal of Agricultural and Food Chemistry, 2017, epoxy resin and polyolefin wax composite coating for controlled-
65(29): 5890-5895. release fertilizer[J]. ACS Applied Materials & Interfaces, 2019,
[44] CHEN J (陈杰), CHENG R (程锐), QU J F (曲均峰), et al. Study of 11(5): 5380-5392.
preparation technology and nutrient release characteristics of [64] YANG Y C, TONG Z T, GENG Y Q, et al. Biobased polymer
polyurethane coated controlled release urea[J]. Journal of the composites derived from corn stover and feather meals as
Chemical Fertilizer Industry (化肥工业), 2014, 41(2): 11-15. double-coating materials for controlled-release and water-retention
[45] MARKUSCH P H, CLINE R L, SARPESHKAR A M. Slow-release urea fertilizers[J]. Journal of Agricultural and Food Chemistry, 2013,
polyurethane encapsulated fertilizer using oleo polyols: US6358296[P]. 61(34): 8166-8174.
2002-03-19. [65] ZHANG S G, YANG Y C, TONG Z H, et al. Self-assembly of
[46] FENG G D, MA Y, ZHANG M, et al. Polyurethane-coated urea using hydrophobic and self-healing bionanocomposite-coated controlled-
fully vegetable oil-based polyols: Design, nutrient release and release fertilizers[J]. ACS Applied Materials & Interfaces, 2020,
degradation[J]. Progress in Organic Coatings, 2019, 133: 267-275. 12(24): 27598-27606.
[47] XU Q (徐齐), CHEN H B (陈海斌), FAN X L (樊小林). Slow and [66] MARKUSCH P H, CLINE R L. Fertilizer encapsulation using sulfur
controlled-release property of C 18 polyol coated urea modified by C 36 containing polyols: US6617412[P]. 2003-09-09.
polyol[J]. Transactions of the Chinese Society of Agricultural [67] LIU H L (刘海林), FAN X L (樊小林). Effect of polyurethane/ZnO
Engineering (农业工程学报), 2016, 32(24): 171-176. composites on nutrient release properties of coated urea[J]. Modern
[48] LIU H L (刘海林), FAN X L (樊小林). Effects of coating proportion, Chemistry Industry (现代化工), 2014, 34(10): 109-111.
porogen and sealant on nutrient release characteristics of vegetable [68] WYNNYK N P, STELMACK E G, BABIAK N M, et al. Controlled
oil coated urea[J]. Journal of Soil and Water Conservation (水土保持 release fertilizer having improved mechanical handling durability and
学报), 2013, 27(4): 196-200. method for production thereof: US20060032282[P]. 2006-02-16.
[49] POO PALAM K D, HARON K, HASSAN A H, et al. [69] WHITTINGTON A A. Coating for fertilizer: US7452399[P].
Controlled-release fertilizer: US9090517[P]. 2015-07-28. 2008-11-18.
[50] KOSMELA P, GOSZ K, KAZIMIERSKI P, et al. Chemical [70] WANG Y, LI J, CHEN X Y. Biodegraded and polyurethane
structures, rheological and physical properties of biopolyols prepared drape-formed urea fertilizer[J]. Journal of Wuhan University of
via solvothermal liquefaction of Enteromorpha and Zostera marina Technology (Materials Science Edition), 2005, 20(2): 12-14.
biomass[J]. Cellulose, 2019, 26(10): 5893-5912. [71] JIA C X, ZHANG M, LU P F. Preparation and characterization of
[51] ZHANG Y F, LI Y F, JIA C, et al. Preparation and application of polyurethane-/MMT nanocomposite-coated urea as controlled-
polyurethane from liquefied waste paper for controlled release release fertilizers[J]. Polymer-Plastics Technology and Materials,
fertilizer[J]. Journal of Biobased Materials and Bioenergy, 2018, 2020, 59(9): 975-984.
12(6): 532-539. [72] WU X D (伍贤东), WANG M (王孟), QIAN J F (钱嘉帆), et al.
[52] LU P F, ZHANG Y F, JIA C, et al. Degradation of polyurethane Preparation and properties of polyurethane/montmorillonite
coating materials from liquefied wheat straw for controlled release composite films for controlled-release fertilizer[J]. Journal of Plant
fertilizers[J]. Journal of Applied Polymer Science, 2016, 133(41): Nutrition and Fertilizer (植物营养与肥料学报), 2019, 25(12):
44021. 2053-2060.
[53] AVELINO F, MIRANDA I P, MOREURA T D, et al. The influence [73] LIN B (林冰). Preparation and characterization of waste oil-based
of the structural features of lignin-based polyurethane coatings on polyurethane/modified bentonite composites[D]. Guangzhou: South
ammonium sulfate release: Kinetics and thermodynamics of the China Agricultural University (华南农业大学), 2016.
process[J]. Journal of Coatings Technology & Research, 2019, 16(2): [74] LIU L, SHEN T L, YANG Y C, et al. Bio-based large tablet
449-463. controlled-release urea: Synthesis, characterization, and controlled-
[54] PENG Z Y, CHEN F G. Synthesis and properties of lignin-based released mechanisms[J]. Journal of Agricultural and Food Chemistry,
polyurethane hydrogels[J]. International Journal of Polymeric 2018, 66(43): 11265-11272.
Materials, 2011, 60(9): 674-683. [75] ZHAO M H, WANG Y Q, LIU L X, et al. Green coatings from
[55] LU P F, JIA C, ZHANG Y F, et al. Preparation and properties of renewable modified bentonite and vegetable oil based polyurethane
starch-based polymer coated urea granules[J]. Journal of Biobased for slow release fertilizers[J]. Polymer Composites, 2018, 39(12):
Materials and Bioenergy, 2016, 10(2): 113-118. 4355-4363.
[56] JIA C, LU P F, ZHANG M. Preparation and characterization of [76] LI L X, CAO B, SUN Y M, et al. Effect of filler treatment on the
environmentally friendly controlled release fertilizers coated by release properties of coating on urea granules polyurethane modified
leftovers-based polymer[J]. Processes, 2020, 8(4): 417. with zeolite 4A for the controlled release of urea[J]. Polymer-Plastics
[57] LI L X, GENG K Q, LIU D S, et al. Relationship between starch Technology and Engineering, 2019, 58(1): 77-82.
liquefaction behavior and properties of polymer coated urea from （下转第 281 页）

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