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提出了GAP的一个燃烧模型。从模型样品的线性燃烧速度和测量的压力值我们可以得出如下结论:在压力指数分界点(2.3MPa)以下时线性燃速由N2释放过程所控制。此外,对通过快速降压产生的熄火样品进行扫描电镜照片和付立叶红外光谱分析表明,N2释放过程很强地限制了燃烧表面的熔融层和热释放的速度值,而且表现出δ-函数,这个事实能够应用在对该现象的渐近分析中。
A combustion model of GAP is proposed. From the linear burning velocity of the model sample and the measured pressure value we can conclude that the linear combustion rate is controlled by the N2 release process below the pressure exponent cut-off point (2.3 MPa). In addition, scanning electron micrographs and Fourier transform infrared spectroscopy analysis of flame-out samples produced by rapid depressurization show that the N2 release process strongly limits the rate of melt layer and heat release on the combustion surface and also shows a δ-function , This fact can be applied to the asymptotic analysis of this phenomenon.