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Thermal degradation and fire performance of wood treated with PMUF resin and boron compounds
Plantation Chinese fir wood was modified by low molecular weight phenol melamine urea formaldehyde (PMUF) resin, boron compounds (BB), and the mixture of PMUF/BB (PMUF‐BB), followed by a curing step. The fire performance and thermal degradation of wood was measured by limiting oxygen index instrument, cone calorimeter, and simultaneous thermal analysis. The results showed that the limiting oxygen index increased to 50.7%, 43.5%, and 55.0% for BB, PMUF, and PMUF‐BB samples, respectively. The PMUF resin decreased the heat release rate of wood but increased the total heat release compared with the control samples. The thermal analysis results demonstrated that PMUF resin enhanced the thermal stability of wood, however, had little impact on the residual chars. Combinative treatment with boron compounds could substantially reduce the fire risk for PMUF‐modified wood, making them especially useful for application in public settings.
Thermal degradation and fire performance of wood treated with PMUF resin and boron compounds
Plantation Chinese fir wood was modified by low molecular weight phenol melamine urea formaldehyde (PMUF) resin, boron compounds (BB), and the mixture of PMUF/BB (PMUF‐BB), followed by a curing step. The fire performance and thermal degradation of wood was measured by limiting oxygen index instrument, cone calorimeter, and simultaneous thermal analysis. The results showed that the limiting oxygen index increased to 50.7%, 43.5%, and 55.0% for BB, PMUF, and PMUF‐BB samples, respectively. The PMUF resin decreased the heat release rate of wood but increased the total heat release compared with the control samples. The thermal analysis results demonstrated that PMUF resin enhanced the thermal stability of wood, however, had little impact on the residual chars. Combinative treatment with boron compounds could substantially reduce the fire risk for PMUF‐modified wood, making them especially useful for application in public settings.
Thermal degradation and fire performance of wood treated with PMUF resin and boron compounds
Wang, Fei (author) / Liu, Junliang / Lv, Wenhua
Fire and materials ; 41
2017
Article (Journal)
English
Heat transfer , Wood , Melamine , Stability analysis , Thermal stability , boron compounds , resin , Thermal analysis , Urea , Boron compounds , Heat release rate , Oxygen , Plantations , Phenols , Boron , Enthalpy , Chars , Molecular weight , wood , fire resistance , Thermal degradation , Constraining , Low molecular weights
Thermal degradation and fire performance of wood treated with pmuf resin and boron compounds
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