|Table of Contents|

Swing test technology of bearing in rocket engines(PDF)

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

Issue:
2022年01期
Page:
83-89
Research Field:
测控与试验
Publishing date:

Info

Title:
Swing test technology of bearing in rocket engines
Author(s):
YUAN JunsheZHAO Chang’anYANG MengboWANG Ting
(Science and Technology on Liquid Rocket Engine Laboratory,Xi’an Aerospace Propulsion Institute, Xi’an 710100,China)
Keywords:
rocket engines bearing swing test installation boundary test system static load friction coefficient fatigue life
PACS:
V434.3
DOI:
-
Abstract:
In the swing of high thrust rocket engine,unlike design index,the swing-bearing not only bears a large radial load,but also bears a certain bearing load,and realizes low-speed reciprocating swing.In order to obtain the static bearing capacity,friction coefficient and fatigue life,a new bearing test system was designed to simulate the installation boundary and loading form of the bearing under different working conditions.The test results show that the static bearing capacity is not less than 920 kN,the fatigue life is more than 10 times of actual service life under the single and double pendulum,the friction coefficient of the bearing is 0.045(single pendulum)and not more than 0.08(double pendulum).At present,the bearing verified by the scheme has been successfully applied to a certain type of liquid rocket engine for many times.

References:

[1] 陈守芳. 常平座的设计与应用[J].火箭推进,2004,30(5):27-30.
CHEN S F. Design and application of gimbal mount[J].Journal of Rocket Propulsion,2004,30(5):27-30.
[2] 魏立保,陈有光. 自润滑关节轴承的研制与应用[J].轴承,2008(5):8-10.
[3] BENNETT G. Simple but strong:The plain bearing advantage[J].Machine Design,2009,81(7):76.
[4] 李斌,张小平,马冬英. 我国新一代载人火箭液氧煤油发动机[J].载人航天,2014,20(5):427-431.
[5] 马华静. 关节轴承试验机研制及磨损量检测系统热误差补偿[D].秦皇岛:燕山大学,2017.
[6] SLINEY H. Some loads limits and self-lubricating properties of plain spherical bearings with molded graphite fiber-reinforced polyimide liners to 320 ℃[EB/OL].https://www.semanticscholar.org/paper/Some-loads-limits-and-self-lubricating-properties-C-Sliney/411a2ba3960aac09bafd 7f5826a96dbf76994763,1978.
[7] KIM B C,PARK D C,KIM H S,et al. Development of composite spherical bearing[J].Composite Structures,2006,75(1/2/3/4):231-240.
[8] KIM B C,LEE D G. Endurance and performance of a composite spherical bearing[J].Composite Structures,2009,87(1):71-79.
[9] 姜韶峰,杨威启,庄汀生. 新型关节轴承寿命试验机及关节轴承寿命判断准则[J].轴承,1996(6):30-33.
[10] 吕新圃,白金石. E06-12型自润滑杆端关节轴承试验机[J].轴承,1997(3):29-32.
[11] 洪富岳,王云,陈民生,等.大中型关节轴承摩擦力矩试验机[J].轴承,1997(9):24-27.
[12] 邸世勇. 一种关节轴承试验机设计与重要零部件结构优化[D].秦皇岛:燕山大学,2014.
[13] 宋云峰,郭强,罗唯力. PTFE/铜网复合材料衬垫自润滑关节轴承的试验研究[J].机械工程材料,2003,27(6):14-15.
[14] 李斌,张小平,高玉闪. 我国可重复使用液体火箭发动机发展的思考[J].火箭推进,2017,43(1):1-7.
LI B,ZHANG X P,GAO Y S. Consideration on development of reusable liquid rocket engine in China[J].Journal of Rocket Propulsion,2017,43(1):1-7.
[15] 张相盟,陈晖,高玉闪,等.500吨级液氧煤油发动机结构动态特性[J].火箭推进,2020,46(2):44-49.
ZHANG X M,CHEN H,GAO Y S,et al. Research on structural dynamic characteristics of the 500-ton LOX/kerosene rocket engine[J].Journal of Rocket Propulsion,2020,46(2):44-49.
[16] 陈守芳,樊根民. 双向摇摆发动机摇摆软管设计方法的探讨[J].火箭推进,2001,27(4):8-12.
CHEN S F,FAN G M. Exploration of design process of flexible hose assembly for two-way gimbaled rocket engine[J].Journal of Rocket Propulsion,2001,27(4):8-12.
[17] 毛凯,苗旭升,陈晖,等.液体火箭发动机涡轮泵用轴承寿命试验研究[J].火箭推进,2016,42(5):24-27.
MAO K,MIAO X S,CHEN H,et al. Experimental research on bearing life of turbopump in liquid rocket engine[J].Journal of Rocket Propulsion,2016,42(5):24-27.
[18] 刘国平,方建敏. 金属膜盘联轴器用关节轴承磨损特性研究[J].航空发动机,2017,43(2):1-5.

Memo

Memo:
-
Last Update: 1900-01-01