|Table of Contents|

Evaluation method of mechanical environment adaptability for rocket second-stage engine in the first-stage flight phase(PDF)

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V]

Issue:
2021年04期
Page:
22-29
Research Field:
研究与设计
Publishing date:

Info

Title:
Evaluation method of mechanical environment adaptability for rocket second-stage engine in the first-stage flight phase
Author(s):
WANG MeiYUAN JunsheLIU JunyanGAO Lele
(Xian Aerospace Propulsion Institute,Xian 710100,China)
Keywords:
second-stage engine first-stage flight phase vibration mechanical environment vibration test method of whole engine
PACS:
V412
DOI:
-
Abstract:
In order to solve the problem of insufficient assessment of mechanical environment in the whole working life cycle of rocket second-stage engine with high thrust,an assessment method of vibration mechanics environment test in the first-stage flight phase of the whole engine was studied.Taking a certain rockets second-stage four-parallel-connected engine as the research object,the test scheme and boundary conditions were determined according to the simulation analysis of the modal frequency under the actual rocket conditions.The structural weaknesses were identified by the acceleration and strain data obtained through sinusoidal vibration and random vibration tests,and the consistency of the engine structure was evaluated by comparing the feature level scanning data before and after the test.The relevant conclusions provide a basis for the engine optimization and improvement.Finally,the mechanical adaptability of the engine was judged by whether the data of the product re-test after the vibration test is normal or not.The success of the first flight and subsequent flight tests of this launch vehicle have verified that the assessment method of whole engine vibration test is effective,which can realize the mechanical environment assessment coverage of the whole life cycle of the second-stage engine and is essential for the reliability of the engine and even the rocket.It also provides an important reference for the environmental adaptability assessment of the second-stage engine in the first-stage flight phase of other launch vehicles.

References:

[1] 杨晓宁.航天器空间环境工程[M].北京:北京理工大学出版社,2018.
[2] 汪洪波,吴海燕,谭建国.推进系统动力学[M].北京:科学出版社,2018.
[3] 张贵田.高压补燃液氧煤油发动机[M].北京:国防工业出版社,2005.
[4] 许文本,焦群英.机械振动和模态分析基础[M].北京:机械工业出版社,1998.
[5] 倪振华.振动力学[M].西安:西安交通大学出版社,1989.
[6] HARRY H D L,KERN J E.Dynamic environmental criteria[R].NASA—STD—7005,2001.
[7] 黄道琼,张继桐,何洪庆.四机并联发动机低频动态特性分析[J].火箭推进,2004,30(4):27-31. HUANG D Q,ZHANG J T,HE H Q.Low frequency dynamic characteristics of four parallel connected engines[J].Journal of Rocket Propulsion,2004,30(4):27-31.
[8] 金路,王俨剀,王彤,等.涡轮泵转子失稳故障分析[J].火箭推进,2020,46(4):23-30. JIN L,WANG Y K,WANG T,et al.Analysis and diagnosis of turbine pump rotor instability[J].Journal of Rocket Propulsion,2020,46(4):23-30.
[9] 孙百红,田川.基于特征频段RMS值的发动机故障实时监测方法[J].火箭推进,2019,45(4):74-78. SUN B H,TIAN C.The fault real-time monitoring method for engine based on RMS value of characteristic frequency band[J].Journal of Rocket Propulsion,2019,45(4):74-78.
[10] 于海昌.航天器振动试验的最新进展[J].导弹与航天运载技术,1999(4):37-43.
[11] PASQUET J C.New vibration equipment for Ariane Ⅳ class sat ellites[C]//1988 ProceedingsI nstitute of Enviro nment al Sciences:Prussia, PA:[s.n.]1988.
[12] 路广霖,罗亚军,张希农,等.基于加权正则化的火箭发动机振动传递路径分析[J].振动与冲击,2019,38(9):271-276.
[13] LANG G F.Electrodynamic shaker fundamentals [M].[S.l.]:Sound and Vibration,1997.
[14] 张俊刚,庞贺伟.振动试验中力限控制技术[J].航天器环境工程,2005,22(5):253-256.
[15] 周莹,宋汉文.力控振动试验与过试验现象分析[J].振动与冲击,2008,27(4):82-84.
[16] 徐钟济.蒙特卡罗方法[M].上海:上海科学技术出版社,1985.
[17] 王世辉,张磊,李铁,等.固体火箭发动机振动试验过试验分析与控制[J].计算机测量与控制,2017,25(4):247-250.
[18] 马红宇,刘站国,徐浩海,等.液氧煤油发动机地面试车故障监控系统研制[J].火箭推进,2008,34(1):45-48. MA H Y,LIU Z G,XU H H,et al.Development of a fault monitoring system for LOX/kerosene engine ground hot-test[J].Journal of Rocket Propulsion,2008,34(1):45-48.
[19] 陈启智.液体火箭推进系统健康监控技术的演变[J].推进技术,1997,18(1):1-7.
[20] FIORUCCI T,REYNOLDS T.Advanced engine health management applications of the SSME Real-Time Vibration Monitoring System[C]//36th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit.Las Vegas,Reston,Virginia:AIAA,2000.

Memo

Memo:
-
Last Update: 1900-01-01