Affiliation of Author(s):机电学院
Journal:INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE
Key Words:Laser melting deposition Electrochemical machining superalloy Hybrid fabrication Microstructure Surface morphology
Abstract:Laser melting deposition (LMD) is typically used for forming and repairing large-scale complex nickel-based superalloy parts, such as aero engines. Defects occur on the surface and structure during LMD and after the completion of forming, so LMD-jet electrochemical machining (JECM) hybrid fabrication was proposed, and a novel abrasive-assisted JECM device was designed. The processing time, and the various processing conditions of the hybrid fabrication were investigated, on account of the balance of processing efficiency and quality. Experiments showed that the oxidation layer of the LMDed samples could be removed entirely under the processing of 90 JECM cycles, while the abrasive-assisted soft brush could efficiently remove the electrolytic products and the abrasive-assisted hard grinding head could efficiently remove the hard-to-electrolyze residual particles in the overlapping areas. The organization microstructure and the surface morphology were characterized using a scanning electron microscope and a 3D optical profiler. The influence that a non-homogeneous distribution of grains (both size and orientation) had on JECM was discussed. The fluctuations of the current efficiencies throughout the processes were analyzed and discussed.
ISSN No.:1452-3981
Translation or Not:no
Date of Publication:2018-11-01
Co-author:Liu, Junzhi,Gao, Changshui,Cheng, Haixia,Gao, Xuesong,Han, Xiao
Correspondence Author:Lida Shen