竹子
材料科学
复合材料
胶粘剂
复合数
耐水性
化石燃料
壳聚糖
耐化学性
制浆造纸工业
化学
有机化学
工程类
图层(电子)
作者
Hang Su,Guanben Du,Xiangyu Ren,Chang Liu,Yingchen Wu,Huijun Zhang,Kelu Ni,Chunyan Yin,Hongxing Yang,Xin Ran,Jun Li,Wei Gao,Long Yang
标识
DOI:10.1016/j.ijbiomac.2023.125345
摘要
Nowadays, green, clean, and efficient sustainable development has become the world's mainstream industrial development. However, the bamboo/wood industry is still in the status quo with high fossil resource dependence and significant greenhouse gas emissions. Herein, a low-carbon and green strategy to produce bamboo composites is developed. The bamboo interface was modified directionally to a bamboo carboxy/aldehyde interface by using a TEMPO/NaIO4 system, and then chemically cross-linked with chitosan to produce active bonding bamboo composite (ABBM). It was confirmed that the chemical bond cross-linking (CN, N-C-N, electrostatic interactions, hydrogen bonding) in the gluing region was helpful to obtain the excellent dry bonding strength (11.74 MPa), water resistance (5.44 MPa), and anti-aging properties (decreased by 20 %). This green production of ABBM solves the problem of poor water resistance and aging resistance of all-biomass-based chitosan adhesives. It can replace bamboo composites produced using fossil-based adhesives to meet the requirements of the construction, furniture, and packaging industries, changing the previous situation of composite materials requiring high temperature pressing and highly dependent on fossil-based adhesives. This provides a greener and cleaner production method for the bamboo industry, as well as more options for the global bamboo industry to achieve green and clean production goals.
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