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Study of Combustion Characteristics of Magnesium/Strontium Nitrate and Magnesium/Sodium Nitrate Pyrotechnics Under Low Pressure Environment

Zefeng Guo, Hua Guan, Chengkuan Shi, Bohuai Zhou

2023Combustion Science and Technology10 citationsDOIOpen Access PDF

Abstract

To explore the effect of pressure on the combustion and luminescence properties of magnesium/nitrate pyrotechnics, combustion tests and thermal analysis of magnesium/sodium nitrate (N) and magnesium/strontium nitrate (S) pyrotechnic samples with zero oxygen balance were conducted under the pressure range of 101kPa-1kPa in this study. The results show that the flame height of N increases continuously as the pressure decreases, and the flames gradually change from a steady-state convergent flame to a turbulent evanescent flame. However, due to the different diffusion rates of the gas-phase combustion products, the diffusion of S at low pressure is lower and the flame still maintains a stable laminar flow. Although the light intensity and burning speed of both N and S satisfy Vier’s law, the luminous intensity of S is less sensitive to pressure and still has good luminous performance at 1 kPa. Thermal analysis test results show that N and S can react almost completely at atmospheric pressure, and their enthalpies of reaction are 6.75 kJ/g and 6.07 kJ/g, respectively. The difference in the thermal decomposition histories of strontium nitrate and sodium nitrate at 1 kPa results in a reaction enthalpy of 4.24 kJ/g for S and only 2.45 kJ/g for N. This indicates that the reaction degree of S at low pressure is higher than that of N. The SEM-EDS test results further confirm this opinion. These scientific findings provide useful insights into the low-pressure combustion behavior of pyrotechnics and support the growing need for military and civilian applications.

Topics & Concepts

ChemistryCombustionSodium nitrateMagnesiumPyrotechnicsMagnesium nitrateStrontiumAdiabatic flame temperatureFlammability limitAnalytical Chemistry (journal)Inorganic chemistryEnvironmental chemistryOrganic chemistryCombustorExplosive materialEnergetic Materials and CombustionCombustion and Detonation ProcessesRocket and propulsion systems research