Thermogravimetric study of flame-retarding properties on phosphorylated beech sawdust

Beech sawdust (S) and samples containing 1% of H₃PO₄ (SP), (NaPO₃)_n (PS), P₂O₅ (POS), NaOH/P₂O₅ (SPS), NaOH (SS) or Na₂CO₃ (CS) were analysed using dynamic and isothermal thermogravimetry (TG) in nitrogen and oxygen environments. According to the results of dynamic experiments in nitrogen, the thermal resistance at 275 °C decreased in the order: S > SS > CS > SP> SPS > PS > POS, while in oxygen the order was: S > POS > SPS=CS=PS > SP > SS. The difference in residues obtained in nitrogen in comparison to oxygen environment reaches its maximum at temperatures from 300 to 325 °C and according to the decreasing values the following order could be listed: SS (300 °C/27%) > SP (325 °C/25%) > CS (300 °C/24%) > S (325 °C/23%) > SPS (300 °C/19%) > PS (300 °C/11%) > POS (275 °C/4%). This indicates that with a decreasing difference in residues formed in oxidative and inert environments the flame-retardant effect of the sample is increasing. The calculated initial rate constants of residue formation and gasification and the corresponding activation energies of the processes in nitrogen and oxygen from the isothermal experiments gave smaller values of rate constants for SPS than for S. For the SPS sample in comparison with S the activation energy of residue formation in nitrogen decreased while the three remaining values increased. The E_r* of PS in the oxygen is the biggest from all studied samples under the conditions used, while SPS gave the biggest E_g* in the oxygen environment. The phosphorus could be washed out with water from SP and SPS, while it remained in PS and POS. These last two samples also have the best flame-retarding properties according to TG analysis.