Evaluations of Nozzle Materials for a Small Solid Rocket Motor

Hyunseob Lee; Jooyoung Jang; Jongyun Oh; Kiyeon Jeong; Taeock Khil

doi:10.6108/KSPE.2024.28.2.097

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2024 Vol.28, Issue 2 Preview Page

TECHNICAL PAPERS

Evaluations of Nozzle Materials for a Small Solid Rocket Motor 소형 고체추진기관용 노즐소재 평가

30 April 2024. pp. 97-104

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Abstract

Evaluations were conducted to choose a nozzle material for a small solid rocket motor. The diverging parts of the nozzle were made of two kinds of composites which are glass and silica/phenolic. Ground firing tests were conducted for each material. Compared to the silica phenolic, the glass/phenolic has lower ablation resistance which caused a reduction in thrust and better insulation performance. The shape information of nozzle diverging parts deformed due to ablation was obtained using the SAM (Segment Anything Model) which is the foundation model for image segmentation. The validity of the use of SAM was verified by comparing the information obtained from SAM with results from measurement by using a vernier caliper. Numerical simulations were conducted by applying the shape information of nozzles. The result from the numerical simulation for the difference in thrust level depending on composites was reasonably consistent with the result from the ground firing test.

Keywords

Solid Rocket Motor

Ablation

Image Segmentation

Foundation Model

Zero Shot Learning

소형 고체추진기관의 노즐소재 선정을 위한 평가가 수행되었다. 글라스 및 실리카/페놀릭 복합재를 사용하여 노즐의 확산부를 제작하였고 각각의 복합재에 따라 지상연소시험을 수행하였다. 글라스/페놀릭은 실리카/페놀릭과 비교할 때 내삭마성이 떨어지며, 추력저하를 발생시켰으나 단열성능은 우수했다. 삭마로인해 변형된 노즐확산부의 형상정보는 이미지 분할에 대한 foundation model인 SAM (Segment Anything Model)을 활용하여 획득하였으며, 획득된 정보를 실측값과 비교하여 SAM의 유효성을 검증하였다. 획득된 삭마형상 정보를 반영하여 유동해석을 수행하였으며, 복합재 종류에 따른 추력레벨의 차이가 유동해석 및 지상연소시험 결과에서 잘 일치하는 것을 확인하였다.

키워드

고체추진기관

삭마

이미지 분할

기반 모델

제로샷 학습

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Information

Publisher :The Korean Society of Propulsion Engineers
Publisher(Ko) :한국추진공학회
Journal Title :Journal of the Korean Society of Propulsion Engineers
Journal Title(Ko) :한국추진공학회지
Volume : 28
No :2
Pages :97-104
Received Date : 2023-12-07
Revised Date : 2024-02-05
Accepted Date : 2024-02-19
DOI :https://doi.org/10.6108/KSPE.2024.28.2.097

Journal of the Korean Society of Propulsion Engineers ISSN:1226-6027(Print) 2288-4548(Online) 한국추진공학회지

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