Research on Aero-Engine Rectifier With Precision Electrochemical Machining Process

HUANG Mingtao; FU Junying; LIU Meng; CHENG Xiaoyuan; ZHANG Mingqi; CHU Yucheng; WANG Xizhong

doi:10.16080/j.issn1671-833x.2021.09.032

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Research on Aero-Engine Rectifier With Precision Electrochemical Machining Process

更新时间：2025-10-30

- Research on Aero-Engine Rectifier With Precision Electrochemical Machining Process
- Aeronautical Manufacturing Technology Vol. 64, Issue 9, Pages: 32-38(2021)
- 作者机构：
  
  中国航空制造技术研究院,北京,100024
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.2021.09.032
  CLC：
- Published：2021
- 稿件说明：
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黄明涛，傅军英，刘萌，程小元，张明岐，褚玉程，王系众. 航空发动机整流器精密振动电解加工技术研究[J]. 航空制造技术, 2021, 64(9): 32-38/59.

HUANG Mingtao, FU Junying, LIU Meng, CHENG Xiaoyuan, ZHANG Mingqi,CHU Yucheng, WANG Xizhong. Research on Aero-Engine Rectifier With Precision Electrochemical Machining Process. 航空制造技术, 2021, 64(9): 32-38/59.
黄明涛，傅军英，刘萌，程小元，张明岐，褚玉程，王系众. 航空发动机整流器精密振动电解加工技术研究[J]. 航空制造技术, 2021, 64(9): 32-38/59. DOI： 10.16080/j.issn1671-833x.2021.09.032.

HUANG Mingtao, FU Junying, LIU Meng, CHENG Xiaoyuan, ZHANG Mingqi,CHU Yucheng, WANG Xizhong. Research on Aero-Engine Rectifier With Precision Electrochemical Machining Process. 航空制造技术, 2021, 64(9): 32-38/59. DOI： 10.16080/j.issn1671-833x.2021.09.032.

摘要

针对具有叶栅密集、流道空间狭窄、结构开敞性差特点的 GH4169 高温合金航空发动机整流器，开展了精密振动电解加工技术研究。通过高频脉冲与低频振动耦合、阴极型面数据批量优化处理、流场仿真物理模型建立与分析，获得了均匀、稳定的小间隙加工状态。利用 L

（3

）正交试验，获得了优化的工艺参数组：加工电压 15V、振动频率 20Hz、开通角度 160°~190°、脉冲频率 3000Hz，加工出的叶型轮廓度为 – 0.023 ~ + 0.025mm，表面粗糙度值 R

为 0.55μm。经组织形貌观察，叶片表面无晶间腐蚀和点蚀，未发现选择性腐蚀现象。研制的 GH4169 高温合金整流器通过了高周疲劳性能考核，成功应用于航空发动机研制中，为航空发动机难加工材料复杂整体结构制造提供了有力的技术支撑。

Abstract

Aero-engine rectifier is characterized by dense cascades

narrow channel space and poor structural openness. A series of studies with precise vibrating electrochemical machining process were carried out for nickel-base superalloy rectifiers. By coupling high-frequency pulse with low-frequency vibration

batch optimization of cathode surface profiles

physical model of flow field simulation and analysis

uniform and stable machining state of small gap was obtained. The optimized process parameters were obtained by orthogonal test. The parameters are voltage of 15V

cathode vibrating frequency of 20Hz

opening angle of 160°–190°

pulse frequency of 3000Hz. Rectifier blades were produced with profile tolerance of – 0.023

~ + 0.025mm and roughness R

of 0.55μm. No intergranular and pitting corrosion was observed by SEM. And no matal elements were selectively removed by EDS. The manufactured nickel-base superalloy rectifier had passed the high cycle fatigue test and had been successfully applied to aero-engine. This provides provides technical support for the manufacture of complex monolithic components with difficult-to-machining materials.

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