Affiliation:
1. State Key Laboratory of Mesoscience and Engineering Institute of Process Engineering Chinese Academy of Sciences Beijing 100190 PR China
2. Sino-Danish College University of Chinese Academy of Sciences Beijing 100190 PR China
3. Sino-Danish Center for Education and Research Beijing 100190 PR China
4. Huaneng Yangtze Environmental Technology Research Institute Beijing 102209 PR China
Abstract
AbstractBio‐oil formaldehyde resole (BFR) can be used as adhesive in plywood industry. However, the BFR has a lower thermal stability, and the reason is still unclear. Herein, the reactivities of four representative phenolic compounds in bio‐oil, including two ortho phenols (2‐methylphenol, 2‐methoxyphenol) and two para phenols (4‐methylphenol and 4‐methoxyphenol), as well as the thermal stabilities of the prepared resoles are investigated. The results show that the reactivity of an ortho phenol is higher than that of a para phenol. The resole prepared from a para phenol has a higher thermal stability than that of an ortho phenol. The resole of an ortho phenol decomposes even when heated at the low temperature of 100 °C. The resole of a methylphenol generally has a higher thermal stability than that of a methoxyphenol. Based on the results, the reason for the low reactivity of bio‐oil and the low thermal stability of BFR are speculated.