A phenolated wood/phenol/formaldehyde cocondensed novolac-type resin was prepared with a two-stage procedure. Wood was first liquefied in the presence of phenol by using an acid catalyst to produce a phenolated wood, and after the liquefaction, formalin (i.e., formaldehyde aqueous solution) was added to conduct a cocondensation reaction for converting the remaining nonreacted phenol into resin components. It was found that this procedure can convert almost all the phenol remained after liquefaction into resin, and therefore significantly upgrades the practical value of the liquefaction technique. In addition, it can also greatly improve the thermofluidities of the phenolated wood resins and the mechanical properties of their molded products. As a result, the flow temperatures and melt viscosities of the cocondensed resins were much lower than those of the phenolated wood resins. However, these two properties were more or less similar to those of the conventional novolac resin, resulting in an excellent processability. The flexural properties of the molded products made from the cocondensed resins were much higher than those of the phenolated wood and also somewhat superior to those of the conventional novolac resin. Therefore, this preparation procedure is a prospective technique for preparing wood-based novolac resins. (C) 1995 John Wiley & Sons, Inc. [References: 10]
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机译:用两步法制备酚醛木/苯酚/甲醛共缩合的线型酚醛清漆型树脂。首先通过使用酸催化剂在苯酚存在下将木材液化以生产酚醛木料,并且在液化之后,添加福尔马林(即甲醛水溶液)以进行共缩合反应以将剩余的未反应的苯酚转化为树脂组分。已经发现,该方法可以将液化后几乎所有残留的苯酚转化为树脂,因此大大提高了液化技术的实用价值。此外,它还可以大大改善酚醛木树脂的热流动性及其模塑产品的机械性能。结果,共聚树脂的流动温度和熔体粘度远低于酚醛木树脂的流动温度和熔体粘度。但是,这两种性能或多或少类似于常规的线型酚醛清漆树脂,从而具有极好的加工性能。由共缩聚树脂制成的模制产品的挠曲性能比酚醛木的挠曲性能高得多,并且也比常规酚醛清漆树脂的挠曲性能稍好。因此,该制备方法是制备木质酚醛清漆树脂的一种预期技术。 (C)1995 John Wiley&Sons,Inc. [参考:10]
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