胶粘剂
淀粉
水解
酶水解
化学
甲醛
化学工程
渗透(战争)
扫描电子显微镜
材料科学
复合材料
有机化学
数学
运筹学
工程类
图层(电子)
作者
Zhenjiong Wang,Zheng Xing,Qin Zhang,Dongxia Hu,Jiasheng Lv,Chao‐Yi Wu,Wenzhi Zhou,Ziauddin Ziauddin
标识
DOI:10.1016/j.ijbiomac.2022.02.036
摘要
Improving the performance of wood adhesive is important for the development of the veneer industry. This work investigated the effects of various durations of enzymatic hydrolysis to improve and enhance the properties of starch-based wood adhesive (SWA). The results showed that moderate enzymatic hydrolysis for 2 h of starch molecule could improve the properties of SWA. The bonding strength of SWA was increased from 2.72 MPa (0 h) to 6.87 MPa (2 h) in the dry state and from 0.87 MPa (0 h) to 2.69 MPa (2 h) in the wet state. A significant decrease in the viscosity of SWA was also observed after 2 h hydrolysis of starch molecules, which allowed smooth spreading and penetration of adhesive through the wood surface. Meanwhile, the dynamic mechanical analysis and scanning electron microscopy showed that SWA with 2 h enzymatic hydrolysis exhibited better elastic deformation and smooth surfaces compared with SWA with un-hydrolysis starch. This study provides important information regarding the possible applications of SWA in the wood industry and presents a potential alternative to less environmentally friendly formaldehyde-based wood adhesives.
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