期刊
HOLZFORSCHUNG
卷 74, 期 2, 页码 175-183出版社
WALTER DE GRUYTER GMBH
DOI: 10.1515/hf-2018-0203
关键词
formaldehyde consumption; kraft; phenolic resins; reactive sites; technical lignin
资金
- BBI Horizon 2020 project SmartLi - Smart Technologies for the Conversion of Industrial Lignins into Sustainable - Materials
- Brazilian agency CNPq
- Brazilian agency CAPES
The substitution of phenol by lignin in phenolformaldehyde (PF) resins is one of the most promising end uses of lignin valorization. Lignin from grasses and softwood has been the focus of the studies in this field as they present a higher number of theoretical reactive sites for resin synthesis. Herein we examined the composition and chemical reactivity of less-reactive hardwood lignin fractions and their performance in PF resins, synthesized by substituting 50 wt% of the phenol with lignin. Before resin synthesis, the samples were hydroxymethylated and the maximum formaldehyde consumption was recorded. By doing so, we observed that hardwood fractions consumed formaldehyde close to the theoretical calculation, whereas the reference softwood lignin consumed only about 1/4 of the theoretical value. In the resin synthesis, we added formaldehyde to the formulation according to the measured maximum formaldehyde consumption. Thus, low values of free formaldehyde in lignin-PF (LPF) resins were achieved (<0.23%). Moreover, the resin bonding strength displayed similar performance irrespective of whether the LPF resins were made with softwood or hardwood lignin (range of 3.4-4.8 N mm(-2) at 150 degrees C and 45-480 s of press time). Furthermore, we concluded that hardwood kraft lignins present no disadvantage compared to softwood lignins in PF resin applications, which have significant practical implications.
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