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Original Articles

Modeling the Burning Rate of Heterogeneous Propellants over a Wide Range of Pressures

, , &
Pages 1569-1589 | Received 27 May 2012, Accepted 14 Jun 2013, Published online: 07 Oct 2013
 

Abstract

The variation of steady burning rate for heterogeneous propellants over a wide range of pressure is studied by experimental methods and theoretical analysis. Two kinds of heterogeneous propellants, GATo-1 CMDB propellant and 86 series composite propellant, are selected. An explanation for two inflection points observed in burning rate–pressure curve is presented. It is concluded that condensed-phase reaction dominates the burning process in the low-pressure region, which presents a low-pressure exponent, whereas heat feedback from the gas phase predominates in the high-pressure region with a high-pressure exponent. In the medium-pressure region, these two factors influence the burning process cooperatively and pressure exponent reduces first and then rises. Results calculated from the model show good agreement with experimental data. Thermal parameters analysis indicate burning rate is more sensitive to thermal conductivity of condensed phase, activation energy of condensed phase, specific heat capacity, and delay time of heat release of the condensed-phase reaction in high pressures. This model is of significance in burning rate characteristics in high pressures and interior ballistic properties in solid-propellant impulsive microthruster.

ACKNOWLEDGMENT

The grant support from the National Science Foundation of China (No. 51076015) is gratefully acknowledged.

Notes

a Typical data in Ward (2000), Brewster (1995), and Louwers (Citation1999).

b Y O and Y F represent the mass fraction of oxidizer and fuel in propellants, respectively. As shown in Table 1, for GATo-1 CMDB propellant, the mass fraction of AP is 30%; hence, the product of Y O Y F is approximately equal to 0.21. Similarly, the mass fraction of AP in 86 serious propellant is 67%; therefore, the product of Y O Y F is approximately equal to 0.22.

c Typical data in Apte (Citation2000) and Ren (Citation2009).

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