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首页> 外文期刊>Journal of Energetic Materials >Burning Rate Equations as a Function of Pressure and Temperature for 1HT/CuO/Additive Mixtures
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Burning Rate Equations as a Function of Pressure and Temperature for 1HT/CuO/Additive Mixtures

机译:1HT / CuO /添加剂混合物的燃烧速率方程与压力和温度的关系

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摘要

The burning rate of energetic materials depends on pressure and initial temperature. The relation between the burning rate and pressure has been well studied. However, the effect of the initial temperature on the burning rate has not been investigated quantitatively. In this study, the burning rates of 1 H-tetrazole, copper (II) oxide, and additive mixtures were examined under conditions ranging from 5 to 9 MPa and 243 to 343 K, and equations for the burning rate as a function of pressure and temperature were obtained. In general, the burning rates predicted by the correlation equations were in good agreement with the observed values. The temperature sensitivities were also predicted and compared with the observed values and good agreement was found between the predicted and observed values.
机译:高能材料的燃烧速率取决于压力和初始温度。燃烧速率和压力之间的关系已得到很好的研究。然而,尚未定量研究初始温度对燃烧速率的影响。在这项研究中,在5至9 MPa和243至343 K的条件下,研究了1 H-四唑,氧化铜(II)和添加剂混合物的燃烧速率,以及燃烧速率与压力和压力的函数关系式。获得温度。通常,由相关方程预测的燃烧速率与观测值非常吻合。还预测了温度敏感性并将其与观测值进行比较,并在预测值和观测值之间找到了很好的一致性。

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