Failure analysis of Integrated Nozzle Actuating System (INAS) cooling hydraulic pipeline

Jivan Kumar; Swati Biswas; M.D. Ganeshachar

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Failure analysis of Integrated Nozzle Actuating System (INAS) cooling hydraulic pipeline

机译：集成喷嘴致动系统（INAS）冷却液压管道的故障分析

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During post test disassembly of a developmental aero engine, a hydraulic pipeline was found fractured from near weld joint. The pipeline was manufactured from a α-β Titanium alloy and was welded using Tungsten Inert Gas Welding (TIG) technique. The pipeline was in service for approximately 100 h. Fractographic features of the surface revealed trans-granular cracking mode with presence of corrosive elements near the outer wall. Crack branching was also observed on the pipeline near to the fractured surface. Evidences of corrosion pits along with microcracks were also present near to the fractured surface. From the evidences, it was corroborated that the pipe failure was due to synergistic effect of corrosion fatigue and stress corrosion cracking.

机译：在研发航空发动机的测试后拆卸过程中，发现一条液压管道从近焊缝处断裂。该管道由α-β钛合金制成，并使用钨极惰性气体保护焊（TIG）技术进行焊接。该管道已投入使用约100小时。表面的分形特征表明，跨壁裂纹模式存在，外壁附近存在腐蚀性元素。在裂缝表面附近的管道上也观察到裂纹分支。在破裂表面附近也有腐蚀点和微裂纹的迹象。从证据可以证实，管道故障是由于腐蚀疲劳和应力腐蚀开裂的协同作用所致。

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来源
《Engineering failure analysis》 |2013年第null期|共12页
作者
Jivan Kumar; Swati Biswas; M.D. Ganeshachar;
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正文语种 eng
中图分类工程力学;
关键词
Corrosion fatigue; Stress corrosion cracking; TIG welding; Transgranular cracking; α-β Titanium alloy;

机译：腐蚀疲劳;应力腐蚀裂纹;TIG焊接;经晶裂纹;α-β钛合金;

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1. Failure analysis of Integrated Nozzle Actuating System (INAS) cooling hydraulic pipeline [J] . Jivan Kumar, Swati Biswas, M.D. Ganeshachar Engineering failure analysis . 2013,第Null期

机译：集成喷嘴致动系统（INAS）冷却液压管道的故障分析
2. Failure analysis of nozzle zone before valve of negative pressure chamber from main pipe coolant system in nuclear power plant [J] . Bing Bai, Changyi Zhang, Xiao Lou, Engineering failure analysis . 2017,第期

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5. A hydraulic actuated thermal management system for large displacement engine cooling systems. [D] . Frick, Peyton Matthew. 2007

机译：用于大排量发动机冷却系统的液压致动热管理系统。
6. Hydraulic performance prediction and optimization of an engine cooling water pump using computational fluid dynamic analysis [O] . Libin Tan, Yuejin Yuan, Man Zhang 2021

机译：使用计算流体动力学分析发动机冷却水泵的液压性能预测和优化
7. Optimization of actuation and cooling systems for advanced convergent-divergent nozzles of combat aircraft [O] . Sánchez Tarifa Carlos, Rodríguez Fernández Manuel, Rebolo R., 1996

机译：战斗机先进的收敛-发散喷嘴的致动和冷却系统的优化

Failure analysis of Integrated Nozzle Actuating System (INAS) cooling hydraulic pipeline

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