• Title/Summary/Keyword: Kick Motor(KM)

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Thrust Measurement System for High Altitude Simulation Test of the KSLV-I Kick Motor (KSLV-I 킥모터 개발을 위한 고공환경모사시험용 추력측정장치)

  • Lee, Jung-Ho;Cho, Sang-Yeon;Cho, Kie-Joo;Jung, Dong-Ho;Lee, Han-Ju;Oh, Seung-Hyub;Yoon, Kyung-Youl;Kim, Dong-Cheol
    • 한국전산유체공학회:학술대회논문집
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    • 2008.03b
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    • pp.428-431
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    • 2008
  • Korea Aerospace Research Institute(KARI) is achieving the Korea Space Launch Vehicle(KSLV) program according to National Space Technology Development Program. KSLV-I will be composed to liquid propellant(first stage) and solid propellant(second stage) propulsion system. The propulsion system of KSLV-I second stage is solid kick motor with high expansion ratio and its starting altitude is 300km high. In order to verify the performance of upper stage propulsion system designed to operate in the upper atmosphere, test facility which can simulate high altitude is needed. High Altitude Simulation Test Facility is composed to Thrust Measurement System, Control & Measurement system, Diffuser, SKID for cooling water supply to diffuser, CCTV, fire protection system and so on. This paper introduces TMS adapted to High Altitude Simulation Test for KSLV-I Kick Motor Development and results of hot firing test for its performance verification.

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Brief Summary of KSLV-I Upper Stage Kick Motor Development (KSLV-I 상단 킥모터 개발 개요)

  • Lee, Hanju;Lee, Jung Ho;Oh, Seung Hyub
    • Journal of the Korean Society of Propulsion Engineers
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    • v.18 no.1
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    • pp.91-96
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    • 2014
  • KSLV-I (Korea Space Launch Vehicle-I) upper stage KM (Kick Motor) is a solid propulsion system which consists of igniter, SAD (Safety Arming Device), composite case, and submerged nozzle capable of TVC (Thrust Vector Control) actuation. Each subsystem of KM fulfilled development requirements for achieving a flight mission successfully. We confirmed the successful development of KM from the $3^{rd}$ flight test results of NARO on January 30, 2013. This article deals with the requirements of KM and the results on configuration management, mass variation, thrust axis alignment, and major test results and so on.

KSLV-I Kick Motor System Thrust Axis Alignment (KSLV-I 킥모터 시스템 추력 축 정렬)

  • Lee, Han-Ju;Jung, Dong-Ho;Oh, Seung-Hyub
    • Aerospace Engineering and Technology
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    • v.9 no.2
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    • pp.138-142
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    • 2010
  • The thrust axis alignment of the launch vehicle is very important because of the misalignment causes the unstable attitude control and results in mission failure. Generally, optical methods such as digital theodolite and laser tracker and mechanical method such as turn table method are used to align thrust axis to vehicle axis. This article deals with the simple method of thrust axis alignment of Kick Motor.

Design and Analysis of Static Firing Test for KM Subscale Motor (KM 축소형 추진기관에 대한 설계 및 시험결과분석)

  • Kwon Taehoon;Lee Wonbok;Hwang Jongsun;Cho Inhyun
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • v.y2005m4
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    • pp.16-19
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    • 2005
  • The basic research on KM(Kick Motor) for space launch vehicle was carried out. KM whick will be used as 2nd stage solid rocket motor. in Korean Satellite Launch Vehicle(I) has been developing. KM is a solid rocket motor using composite propellant based on HTPB and is composed of composite motor case and submerged nozzle. To develop KM rocket motor satisfing a given set of requirement, firstly the full-scale KM was designed, then sub-scale motor reduced about $50\%$ were manufactured and tested.

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Development and Performance Test of the KSLV-I KM Case (KSLV-I KM 케이스 개발 및 성능 시험)

  • Kil, Gyoung-Sub;Lee, Mu-Guen;Lee, Kyung-Won;Cho, In-Hyun
    • Aerospace Engineering and Technology
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    • v.6 no.2
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    • pp.188-196
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    • 2007
  • A composite case was designed to satisfy the required condition of KSLV-I kick motor system. we performed the structure and combustion tests to insure the reliability of the case before the production of the flight model. The hydraulic, vacuum and non destruction testes as the structure test were carried out to confirm the strength of the components of the case and the characteristics of the thermal and structure were investigated through the ground combustion test.

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Development of the KSLV-I KM Case Manufacturing Process (KSLV-I KM 연소관 제작 공정 개발)

  • Kim, Joong-Suk;Lee, Won-Bok;Cho, In-Hyun;Kil, Gyoung-Sub
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2007.04a
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    • pp.193-196
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    • 2007
  • The motor case for the KSLV-I KM is the first satellite launch vehicle ever to be developed by Korea to deliver the 100 kg class satellite into Earth's low orbit. This SLV is made of two stages, and the 2nd stage is made of solid rocket motor. The motor case of the KM is made of all composite materials except for the interface structures. Manufacturing process for the motor case such as insulation, filament winding for the motor case, fabrications for the interface structures will be discussed in this paper.

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Modal Test of the 2nd Stage of Small Launch Vehicle (소형 위성 발사체 2단부 모드 시험)

  • Seo, Sang-Hyun;Jeong, Ho-Kyeong;Youn, Se-Hyun;Park, Soon-Hong;Jang, Young-Soon
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2006.05a
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    • pp.258-261
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    • 2006
  • The structure of small launch vehicle can be divided into engine section and payload section. This paper introduces modal test of the payload section of small launch vehicle which is composed to satellite, PLA (Payload Adapter), VEB (Vehicle Equipment Bay), KMS (Kick Motor Support) and KM (Kick Motor). From this test, dynamic properties of the 2nd stage structure of small launch vehicle can be obtained. In this test, to simulate free-free boundary condition, test object was hung by 4 bungee cords and excited by using impact hammer Modal test data are analyzed by using TDAS(Test Data Analysis Software). As the result, modal parameters and mode shapes below 100Hz of the 2nd stage of small launch vehicle were identified.

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KM 추진제 개발 (I)

  • 최성한;박의용;조인현
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2000.04a
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    • pp.26-26
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    • 2000
  • KM(Kick Motor)는 항우연에서 주관하여 개발하고 있는 3단형 과학관측로켓(KSR-III)이다. 본 연구는 이 KM에 적용되는 추진제 개발로서 추진기관에서 요구하는 성능, 밀도, 연소특성, 기계적특성, 점화성, 추진제/라이너/EFDM 접착력을 달성하고, 장기저장시 추진제에 작용하는 온도, 중력등 하중에 대한 추진제의 내구성을 확인하는 수면예측시험을 통해 KM이 사용하는 기간중 요구성능을 발휘할 수 있는 추진제 개발을 목표로 하고 있다. 본 논문에서는 KM 추진제 개발중 1차적으로 추진기관 요구성능을 달성하기 위해서 추진제 성능분석을 통한 기본조성을 설정하고, 이 기간조성을 토대로 밀도, 연소특성, 기계적 특성, 추진제/라이너/EPDM 접착력 실험 결과등을 정리하였고, 추진제 성능을 확인하는데 일반적으로 널리 이용하는 있는 표준모타(ST-8)에 적용하여 이론적 성능분석 및 실제 연소시험을 실시하여 그 결과를 비교 분석하였다.

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Two phase analysis of solid rocket motor plume as particle characteristics (입자 특성에 따른 고체모터 플룸 이상유동 해석)

  • Kim, Seong-Lyong;Kim, In-Sun
    • Aerospace Engineering and Technology
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    • v.9 no.1
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    • pp.17-27
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    • 2010
  • KSLV-I KM plume including alumina particle has been studied using the continuum solver. Alumina particles are assumed to have 7 different diameters, and the specific ratio of the plume gas is assumed to be 1.2, with which the internal nozzle flow characteristics are similar to those of the chemically equilibrium analysis results. The results showed that the expansion angle of the particles is smaller than that of the gas phase, and that the big sized alumina particles are gathered in the plume core and the expansion angles of the big sized particles are smaller than those of the light particles. When the emissivity of the particles are assumed to be 0.1, the radiative heat flux is equivalent to those measured during the flight test of KSLV-I.

Simulation of KM Plume Density Field by Residual Thrust Using DSMC Method (DSMC 방법을 사용한 KM 잔류추력 밀도장 시뮬레이션)

  • Choi, Young-In;Ok, Ho-Nam;Hong, Il-Hee
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2011.11a
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    • pp.769-771
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    • 2011
  • The satellite payloaded on the 2nd stage of KSLV-I is planned to perform CCAM(Contamination and Collision Avoidance Maneuver) not to collide with KM(Kick Motor). At the moment, the satellite should pass through low density environment not to be contaminated by KM plume due to residual thrust. Therefore, it is necessary to predict the flow field of KM plume by residual thrust. In this paper, DSMC (Direct Simulation Monte-Carlo) method, which is widely accepted to simulate in rarefied regime, is used to compute the density field of KM plume by residual thrust and the result of DSMC simulation was compared with that of FLUENT to validate it.

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