Structure formation in urea-formaldehyde resin synthesis

P. Christjanson, T. Pehk, K. Siimer
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引用次数: 16

Abstract

The structure formation in acid promoted polycondensation and particularly in alkaline post-treatment with urea was studied by ¹³C NMR spectroscopy in the three-step synthesis of urea- formaldehyde resins. Trishydroxymethyl urea was identified as the constituent of the mixture of hydroxylmethylated urea derivatives obtained in alkaline conditions. The formation of methylenes linked to secondary or tertiary amino groups occu rs only in acidic conditions by branching chains in the reaction with mono- and 1,3-bishydroxymethyl urea. Bishydroxymethyl groups do not take part in acid promoted polycondensation. The final structure of resins depends mostly on the migration of formaldehyde from bishydroxymethyl groups to urea with formation of mono- hydroxymethyl urea as the first preferred compound. A greater amount of oligomers with methylenes adjacent to secondary amino groups and containing singly bonded urea is a sign of a thorough heat treatment. A steady content of methylenes linked to tertiary amino groups is observed in heat treatment and ageing of resins.
脲醛树脂合成中的结构形成
采用1³C核磁共振波谱法研究了脲醛树脂三步合成过程中酸促缩聚特别是尿素碱后处理的结构形成。在碱性条件下得到的羟甲基化尿素衍生物混合物的组分为三羟基甲基脲。在与单羟基和1,3-双羟基甲基脲的反应中,只有在酸性条件下才能通过支链形成与二级或三级氨基相连的亚甲基。双羟基甲基不参与酸促缩聚。树脂的最终结构主要取决于甲醛从双羟基甲基向尿素的迁移,形成单羟基甲基尿素作为首选化合物。与亚甲基相邻的二级氨基和含有单键尿素的大量低聚物是彻底热处理的标志。在树脂的热处理和老化过程中,观察到与叔氨基基团相连的亚甲基的稳定含量。
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