阻燃处理木材燃烧残余物的热分解特征
Pyrolytic characteristics of burning residue of fire-retardant wood
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摘要: 为了弄清楚阻燃处理木材燃烧残余物的热分解特征,将阻燃处理木材在模拟的典型火灾中燃烧后,取距燃烧表面不同位置的试样,采用热失重法研究了阻燃处理木材燃烧残余物的热分解过程,结果表明:①阻燃处理木材及其燃烧残余物的热分解开始温度没有明显的差别,未处理木材燃烧残余物的热分解开始温度比未燃烧木材高;②阻燃处理木材中阻燃剂的热分解峰值温度为200℃,随着燃烧过程的进行,归属于阻燃剂的峰消失;③阻燃处理木材燃烧残余物热分解温度曲线中,在230℃附近归属于半纤维素的峰消失,在210~240℃出现了一个缓慢的肩;④阻燃处理木材及其燃烧残余物的质量损失速度曲线主峰温度比未处理木材及其燃烧残余物降低100℃,质量损失速度大幅度减少;⑤阻燃处理木材在600℃时的热分解残存质量比未处理木材显著增大,随着燃烧时受热温度的增高,燃烧残余物热分解的残余质量显著增大;⑥阻燃处理木材及其燃烧残余物的热分解温度区间,与未处理木材及其燃烧残余物存在显著差异.Abstract: In order to investigate the pyrolytic characteristics of burning residue of fire-retardant wood,the multifunctional fire-resistance test apparatus aiming at simulating the course of fire was used to burn fire-retardant wood and untreated wood.Samples with different distance from the combustion surface were collected and the thermogravimetric analysis(TG) was applied to test the pyrolytic process of burning residue in an atmosphere of nitrogen.The results showed that:1) there was little difference between fire-retardant wood and its residue in the initial temperature of thermal degradation.The initial temperature of thermal degradation of combustion layer in untreated wood was higher than that in no burning wood sample;2) the temperature of flame retarder in fire-retardant wood was 200℃ in the differential thermogravimetry(DTG).The peak belonging to flame retarder tended to dissipate with time of burning;3) for the burning residue of fireretardant wood,the peak belonging to hemicellulose near 230℃ in the DTG disappeared and there was a gentle shoulder from 210℃ to 240℃;4) the main peaks of fire-retardant wood and its burning residue in DTG moved to a lower temperature by 100℃ than untreated wood and its burning residue.The rate of weight loss also decreased sharply and this is corresponding to the main peak decreased with an increasing in heating temperature when burning;5) the residual weight of fire-retardant wood at 600℃ obviously increased compared with that of untreated wood.Residual weight of burning residue increased markedly as the heating temperature increased when burning;and 6) there was a considerable difference in respect of thermal degradation temperature of no burning sample and burning residue between fire-retardant wood and untreated wood.