机载燃油泵复杂应力退化试验设计与应力影响分析
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TP277 TH35

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“十三五”预研专用技术项目(3030507- 2)资助


Complex stress degradation test design and stress influence analysis of airborne fuel pump
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    摘要:

    针对机载燃油泵可靠性高、寿命长,实际工作环境复杂,而试验应力因素单一等特点,设计搭建了复杂应力条件下燃油 泵退化试验平台,并对应力因素影响进行了分析。 首先通过对燃油泵失效机理的分析,选取了影响轴承磨损的电应力和机械振 动作为主要应力,开展其性能退化研究;然后基于以上选取的应力搭建了燃油泵退化试验平台和振动试验装置,并对压力传感 器和流量传感器进行了选型,介绍了信号采集控制系统,设计了燃油泵夹持装置并对其动态性能进行了分析;最后基于正交试 验思想设计了试验方案,并采用极差分析和方差分析 2 种方法对试验结果进行了分析。 所提方法缩减了 2 / 3 的试验次数,节省 了试验时间,并得出电压对燃油泵可靠性的影响更为显著,其置信度可达 99% 。

    Abstract:

    Aiming at the characteristics of high reliability, long service life, complex working environment, and single test stress factor of airborne fuel pump, a fuel pump degradation test platform under complex stress conditions was designed and built. And the influence of stress factors was analyzed. Firstly, through the analysis of the failure mechanism of the fuel pump, the electrical stress and mechanical vibration which affect bearing wear were selected as the main stress to study its performance degradation. Secondly, the degradation test platform and vibration test device of fuel pump were built based on the selected stress. And the pressure sensor and flow sensor were selected. The signal acquisition and control system was introduced, the fuel pump clamping device was designed and its dynamic performance was analyzed. Finally, the experimental scheme was designed based on the orthogonal experimental idea, and the test results were analyzed through range analysis and variance analysis. The number of tests was reduced by 2 / 3. It was concluded that voltage has more significant influence on the reliability of fuel pump and the confidence level was up to 99% .

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孙宏达,景 博,焦晓璇,章 余,王光临.机载燃油泵复杂应力退化试验设计与应力影响分析[J].仪器仪表学报,2021,(5):208-218

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  • 在线发布日期: 2023-06-28
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