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石蜡相变微胶囊的制备及其隔热性的研究 被引量:3

Microencapsulation of Paraffin and Research of Heat Insulation Property
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摘要 以石蜡为囊芯,脲醛树脂为囊壳,通过原位聚合法制得了微胶囊。研究了脲醛预聚体的生成和脲醛预聚体的固化2个阶段的工艺条件对微胶囊形成的影响。显微观察微胶囊形貌完整。涂膜隔热性能测试结果表明,该种微胶囊具有明显吸热性能,可作为隔热添加剂使用。 With paraffin as core material, urea-formaldehyde resin as shell material, by means of in-situ polymerization, microcapsules were prepared. The effects of parameters during prepolymer's forming and its solidifying process are researched. The optical morphography shows that the microcapsules are integrated. The measurement of coating within the microcapsules proves the heat insulation property, and the microcapsules can be used as heat insulation additive.
出处 《新技术新工艺》 2007年第12期82-83,共2页 New Technology & New Process
关键词 相变 石蜡 微胶囊 隔热性 phase change, paraffin, microcapsule, heat insulation property
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二级参考文献5

  • 1梁治齐.微胶囊技术及应用[M].北京:中国轻工业出版社,1999..
  • 2Niulligan J C, Coloin D P, Bryant Y G, [J].Journal of Spaeceraft and Rockets,1996,33(2):278.
  • 3Lane G A,Glew D N.In:proceedings of Workshop on Solar Energy Storage Systems for the Heating and Cooling of Buildings[C].Charlottesoille,VA:1975,43.
  • 4Cho J S,Kwon A,Cho C G[J].Colloid Polymer Science,2002,280:260.
  • 5Hawlader M N A.Uddin M S,Zhu H J.[J].International Journal of Solar Energy,2000,68(1);69-75.

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