Feedrate planning for synchronized movements involving rotary axes in multi-axis EDM for shrouded blisks

As compared to traditional machining approaches, multi-axis electrical discharge machining (EDM) has its unique advantages in machining components which are made of difficult-to-cut materials and have complex structures, such as shrouded blisks. Manufacturing processes of such complex parts involve...

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Bibliographic Details
Published inInternational journal of advanced manufacturing technology Vol. 90; no. 9-12; pp. 2645 - 2654
Main Authors Chen, Hao, Xi, Xue-Cheng, Zhao, Wan-Sheng, Chen, Mo
Format Journal Article
LanguageEnglish
Published London Springer London 01.06.2017
Springer Nature B.V
Subjects
Algorithms
Angular velocity
Axes (reference lines)
Blisks
CAE) and Design
Computer-Aided Engineering (CAD
Data analysis
EDM electrodes
Electric discharge machining
Electrodes
Engineering
Industrial and Production Engineering
Machine shops
Mechanical Engineering
Media Management
Multiaxis
Numerical controls
Original Article
Post-processing
Stability
Variations
Shrouded blisks
Multi-axis EDM
Synchronized movements
Feedrate planning
Axial movement ratio
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Summary:As compared to traditional machining approaches, multi-axis electrical discharge machining (EDM) has its unique advantages in machining components which are made of difficult-to-cut materials and have complex structures, such as shrouded blisks. Manufacturing processes of such complex parts involve synchronized movements of both linear and rotary axes. Due to different dimensions of angular and linear velocities, there is a discrepancy between demanded and actual feedrates. This feedrate discrepancy, on the one hand, can cause feedrate fluctuations leading to a machining instability, and on the other hand, can cause inaccurate heights of electrode jumps. In order to ensure the machining stability, this paper proposes a feedrate planning method for multi-axis EDM of shrouded blisks. In this method, CAD models of both an electrode and an shrouded blisk are utilized to extract characteristic radii for feedrate planning in G-code generations. A feedrate post-processing algorithm for multi-axis EDM for shrouded blisks is proposed to reduce feedrate fluctuations and achieve a proper electrode jump height. Data analysis demonstrates the resultant feedrate can be kept in a proper range. In comparative multi-axis EDM for shrouded blisks, the machining time has been reduced by up to 21.43 % by using the proposed feedrate planning method.
ISSN:0268-3768
1433-3015
DOI:10.1007/s00170-016-9575-3