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[1]董冬,刘宏卫,张俊峰,等.AA9-683阀门活门杆失效分析[J].火箭推进,2015,41(06):99-104.
　DONG Dong,LIU Hongwei,ZHANG Junfeng,et al.Failure analysis on stem of valve AA9-683[J].Journal of Rocket Propulsion,2015,41(06):99-104.

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AA9-683阀门活门杆失效分析

《火箭推进》[ISSN:1672-9374/CN:CN 61-1436/V] 卷: 41 期数: 2015年06期页码: 99-104 栏目: 测控与试验出版日期: 2015-12-31

Title:: Failure analysis on stem of valve AA9-683

作者:: 董冬; 刘宏卫; 张俊峰; 李谦; 朱成亮; 西安航天动力试验技术研究所，陕西西安 710100

Author(s):: DONG Dong; LIU Hongwei; ZHANG Junfeng; LI Qian; ZHU Chengliang; Xi’an Aerospace Propulsion Test Technique Institute, Xi’an 710100, China

关键词:: 活门杆; 屈曲; 临界载荷; 挠度

Keywords:: valve stembucklingcritical loaddeflection

分类号:: V434-34

文献标志码:: A

摘要:: 试验中大量使用的AA9-683阀门多次出现活门杆弯曲卡死现象。依据阀门工作原理和故障活门杆分解情况对活门杆失效机理进行分析认为：活门杆弯扭屈曲可能为临界载荷和侧向载荷共同作用产生的结果。选取最小截面等截面法和仿真计算法分别计算活门杆临界载荷。最小截面等截面法依据欧拉临界载荷公式获得临界载荷，仿真计算法依据ANSYS Workbench软件基于静力法的屈曲计算方法获得临界载荷。通过比较2种方法计算的临界载荷数据，显示结果接近，并且依据已测量挠度以及挠度计算法推导出侧向载荷。将临界载荷、侧向载荷结果与活门杆失效情况比较分析，得出活门杆失效机理的分析结论成立。针对造成活门杆失效的原因采取了有效的改进措施。

Abstract:: The stem of valve AA9-683 bending and clamping phenomenon occurred repeatedly in the test. According to the valve working principle and fault stem decomposition, and the failure mechanism analysiss of the valve stem, it is considered that the stem flexural torsional buckling may be generated by the combined action of critical load and lateral load. The minimum cross section uniform method and simulation calculation method are chosen to calculate the critical loads of valve stem respectively. The former obtains the critical load according to Euler critical load formula, and the latter obtains the critical load according to the static method based buckling calculation method of ANSYS Workbench software. By comparing the critical load data got by the two methods, the results are close to each other. According to the measured deflection and the deflection calculating method, the lateral load can be deduced. The relation of the critical load and lateral load with the actual results of the valve stem failure are compared and analyzed. The results indicate that analysis conclusion of the valve stem failure mechanism is tenable. In

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备注/Memo

收稿日期：2015-01-28；修回日期：2015-06-26 作者简介：董冬（1981—），男，工程师，研究领域为液体火箭发动机试验技术

更新日期/Last Update: 1900-01-01