Abstract
Solid heterogeneous rocket propellants (SHRP) containing ammonium perchlorate (AP) emit a lot of hydrogen chloride (HCl) during combustion, which poses various environmental issues and makes the detection of the rockets easier. Part of the AP can be replaced by ammonium nitrate (V) (AN), which does not lead to the production of HCl. AN is a commonly used environmentally friendly oxidizer, but it is not usually applied in SHRP due to its disadvantages. One of these disadvantages is a phase transition near room temperature, which causes the density change of AN. Three types of phase stabilized ammonium nitrate (V) (PSAN) with inorganic potassium salts were obtained in order to shift this transition into higher temperatures (above the temperature range of the storage and the usage of SHRP). The SHRP with the PSAN were obtained, and the measurements of the heat of combustion, density, hardness, the sensitivity to mechanical stimuli and the thermomechanical properties were performed. The obtained propellants were characterized by similar operational parameters or were slightly lower than those without the PSAN. This means that AP can be partially replaced without significantly compromising the handling, safety or functionality of the propellants, while increasing the environmental performance of the solution.
Highlights
IntroductionAmmonium nitrate (V) (AN) is widely used in both civil (e.g., mineral fertilizers) and military (e.g., solid rocket propellants) industries
Ammonium nitrate (V) (AN) is widely used in both civil and military industries
The calculations based on Tg (E”) are better because this temperature is connected with a loss of stiffness [30,31]. This approach is recommended for solid rocket propellants in the STANAG 4540 standard [32]
Summary
Ammonium nitrate (V) (AN) is widely used in both civil (e.g., mineral fertilizers) and military (e.g., solid rocket propellants) industries. In order to limit the disadvantages (i.e., hygroscopicity, presence of phase transitions, low combustion velocity) of ammonium nitrate (V) in solid heterogenous rocket propellants (SHRP), the following methods can be used [3,4,5,6]: . The structure of the solid rocket propellant based on AN is damaged when the material is subjected to temperature changes in the range of the phase transitions of AN between II and V [8] Solid propellants containing such oxidants can crack during storage (due to the change in the AN volume caused by this transition), which may lead to a rough rocket motor operation, uncontrolled pressure build-up and even the explosion of the rocket combustion chamber [2,9]. The phase stabilization of AN is carried out as a result of the co-crystallization of AN with an additive in an aqueous medium [12,17,18] or the addition of an additive in the melting process [8,9,10,11]
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