Kurimoto Y, Takeda M, Doi S, Tamura Y, Ono H
Institute of Wood Technology, Akita Prefectural University, Noshiro, Japan.
Bioresour Technol. 2001 Mar;77(1):33-40. doi: 10.1016/s0960-8524(00)00136-x.
Polyurethane (PU) films were prepared by solution-casting after co-polymerization of liquefied woods (LWs) and polymeric methylene diphenylene diisocyanate (PMDI). The resulting PU films had various [NCO]/[OH] ratios ranging from 0.6 to 1.4 and contained 5.0-16.8% dissolved woody components at the [NCO]/[OH] ratio of 1.0. The crosslink densities of the films with [NCO]/[OH] ratios of 0.6-1.4 increased remarkably with increasing [NCO]/[OH] ratio. Similarly, there were large increases in glass transition temperatures (Tg). These characteristics could be attributed to effective incorporation of PMDI into the LW. The crosslink densities and Tg of the PU films prepared at the [NCO]/[OH] ratio of 1.0 increased because the amounts of dissolved woody components in the films increased. It is concluded that the dissolved woody components acted as crosslinking points in PU network formations. The thermal degradation of the PU films at an [NCO]/[OH] ratio of more than 0.8 or with more than 10.6% dissolved wood started above 262 degrees C under an N2 atmosphere. The thermostability was lost at low crosslink density or with large amount of co-polymerized glycerol structures in the PU networks.
在液化木材(LWs)与聚合亚甲基二苯基二异氰酸酯(PMDI)共聚后,通过溶液浇铸制备聚氨酯(PU)薄膜。所得的PU薄膜具有各种[NCO]/[OH]比,范围从0.6到1.4,并且在[NCO]/[OH]比为1.0时含有5.0 - 16.8%的溶解木质成分。[NCO]/[OH]比为0.6 - 1.4的薄膜的交联密度随着[NCO]/[OH]比的增加而显著增加。同样,玻璃化转变温度(Tg)也大幅升高。这些特性可归因于PMDI有效掺入LW中。在[NCO]/[OH]比为1.0时制备的PU薄膜的交联密度和Tg增加,是因为薄膜中溶解木质成分的量增加。可以得出结论,溶解的木质成分在PU网络形成中充当交联点。在N2气氛下,[NCO]/[OH]比大于0.8或溶解木质成分超过10.6%的PU薄膜在262℃以上开始热降解。在低交联密度或PU网络中有大量共聚甘油结构时,热稳定性丧失。
