Su-Kyum Kim scite author profile

Su-Kyum Kim

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Life Firing Test of 1 N-class Monopropellant Thruster Development Model -Part II: Pulse Mode Performance

Won¹,

Kim²,

Jun³

et al. 2014

Journal of the Korean Society of Propulsion Engineers

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During the life firing test of 1 N-class thruster development model, pulse mode performance and performance changes were examined. The deviation of pulse mode response time according to thruster feed pressure was relatively small and the resultant ignition delay, response time, tail-off time were 32-35 ms, 86-91 ms, 89-98 ms, respectively. For the stabilized pulse region the impulse bit revealed the outstanding reproducibility of 1.41, 1.32, 2.10% at 3σ. During the life firing test, the impulse bit was decreased with limited amounts, therefore the pulse mode performance could be considered to be maintained. The thrust centroid was also maintained during the life firing test.

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Life Firing Test of 1 N-class Monopropellant Thruster Development Model -Part I: Environmental Test and Steady State Performance

Won¹,

Kim²,

Jun³

et al. 2014

Journal of the Korean Society of Propulsion Engineers

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Acceptance level random vibration and life firing test for development model of 1 N-class monopropellant thruster have been performed. From the results of random vibration, the natural frequency of the dual thurst module composed of 1 N-class development model thrusters was higher than the part level requirement(>100 Hz) and the structural robustness was verified. Thrust decrease of steady sate was below 7% and thrust instability was within ±5% in the life firing test using over 20 kg propellant throughput. The computerized tomography for catalyst bed showed a less than 7% of catalyst loss and it revealed the design appropriateness of the current thruster development model.

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Su-Kyum Kim

Life Firing Test of 1 N-class Monopropellant Thruster Development Model -Part II: Pulse Mode Performance

Life Firing Test of 1 N-class Monopropellant Thruster Development Model -Part I: Environmental Test and Steady State Performance

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