EXPERIMENTAL INVESTIGATION ON SPIN EFFECT UPON BURNING RATE OF ALUMINIZED COMPOSITE PROPELLANT

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MOHAMMADI A.R.; FARAHANI M.; Goodarz M.

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Paper Information

Journal: MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING) Year:2020 | Volume:36-3 | Issue:1 Page(s): 29-34

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Title

EXPERIMENTAL INVESTIGATION ON SPIN EFFECT UPON BURNING RATE OF ALUMINIZED COMPOSITE PROPELLANT

Author(s)

MOHAMMADI A.R. | FARAHANI M. | Goodarz M. | Issue Writer Certificate

Keywords

AccelerationQ1

burning rateQ1

solid rocket motorQ2

composite propellantQ1

Abstract

This research is conducted to study Acceleration effect on the burning rate augmentation of an aluminized solid propellant based on HTPB as an effective factor determining combustion chamber pressure. A centrifugal experimental setup was designed to obtain a uniform Acceleration field by rotating the test motor around its longitudinal axis. A cylindrical port propellant grain was used in the test motor which had an inner diameter of 30 mm, an outer diameter of 60 mm and a length of 52 mm, so Acceleration vector was always perpendicular to inner burning surface of propellant. Inner radius of tube was small, so the magnitude of Acceleration increased as the grain burned back. The pressure of combustion chamber was changed from 30 bar 80 bar by changing the nozzle throat and the magnitude of Acceleration changed from 2g to 60g by changing the rotational speed of solid rocket motor. Pressure of combustion chamber was measured. An analytical 0D code was used to compute burning rate augmentation of propellant in Acceleration field. Nozzle throat diameter is another parameter controlling the pressure field of combustion chamber of solid rocket motor. Thermomechanical erosion of nozzle throat is significant in aluminized propellant, so erosion of graphite throat insert was measured and taken into account in 0D code. Burning time of all tests was below 2 sec. due to small web of the grain. As investigated, at low Acceleration level (below 5g), burning rate of propellant is not sensitive to Acceleration while in the condition in which Acceleration changed from 30g to 60g, burning rate augmentation ratio increased from 1 to 1. 5. The transient behavior of burning rate augmentation in Acceleration field was obvious in obtained results due to short burn time of SRM. At high Acceleration level, inner cylindrical surface of inhibitor was coated with aluminum oxide particles.

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APA: Copy

MOHAMMADI, A.R., FARAHANI, M., & Goodarz, M.. (2020). EXPERIMENTAL INVESTIGATION ON SPIN EFFECT UPON BURNING RATE OF ALUMINIZED COMPOSITE PROPELLANT. MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING), 36-3(1 ), 29-34. SID. https://sid.ir/paper/370170/en

Vancouver: Copy

MOHAMMADI A.R., FARAHANI M., Goodarz M.. EXPERIMENTAL INVESTIGATION ON SPIN EFFECT UPON BURNING RATE OF ALUMINIZED COMPOSITE PROPELLANT. MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING)[Internet]. 2020;36-3(1 ):29-34. Available from: https://sid.ir/paper/370170/en

IEEE: Copy

A.R. MOHAMMADI, M. FARAHANI, and M. Goodarz, “EXPERIMENTAL INVESTIGATION ON SPIN EFFECT UPON BURNING RATE OF ALUMINIZED COMPOSITE PROPELLANT,” MECHANICAL ENGINEERING SHARIF (SHARIF: MECHANICAL ENGINEERING), vol. 36-3, no. 1 , pp. 29–34, 2020, [Online]. Available: https://sid.ir/paper/370170/en

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