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A Biobased Flame‐Retardant Resin Based on Lignin
Author(s) -
Matsushita Yasuyuki,
Hirano Daisuke,
Aoki Dan,
Yagami Sachie,
Takagi Yasuo,
Fukushima Kazuhiko
Publication year - 2017
Publication title -
advanced sustainable systems
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.499
H-Index - 24
ISSN - 2366-7486
DOI - 10.1002/adsu.201700073
Subject(s) - fire retardant , cone calorimeter , char , lignin , combustion , materials science , intumescent , formaldehyde , synthetic resin , heat of combustion , chemical engineering , organic chemistry , polymer chemistry , composite material , chemistry , engineering
This study focuses on the development of biobased flame‐retardant resins. Lignin and α,ω‐alkanediols are used, which can be obtained from biomass. To introduce intumescent properties, phosphoryl chloride and 3‐amino‐1,2,4‐triazole are introduced into kraft lignin prior to it being resinified with the α,ω‐alkanediols. In simple combustion tests using a gas burner at 1300 °C, the resins prepared exhibit nonburnable properties, producing only a swollen char. According to dynamic mechanical analysis, the glass transition temperature decreases with an increase in the carbon number and amount of the alkanediols introduced. The mechanical loss tangent (tan δ) value of the prepared resins is below 1, indicating that the resins would not drip flaming particles during burning. Indeed, the specimens do not generate particles in the simple combustion tests. According to the results of cone calorimeter testing, the total heat release and the peak heat release rate are significantly smaller than those of a commercial phenol‐formaldehyde‐resin‐containing flame retardant.