Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining

In this research shaped tube electrolytic machining of drilling and milling of magnetic alloys parts and difficult-to-cut metals, steels and alloys is presented. New research made in the field of space, aviation, automobile, medical, computer and electronics, and others has created the need for smal...

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Main Authors: Glebov Vladimir V., Danilenko Irina N., Ratushinsky Ruslan I.
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201822603017
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spelling doaj-0d761661776b431086207ccffeb51eb22021-02-02T08:32:13ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012260301710.1051/matecconf/201822603017matecconf_dts2018_03017Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machiningGlebov Vladimir V.Danilenko Irina N.Ratushinsky Ruslan I.In this research shaped tube electrolytic machining of drilling and milling of magnetic alloys parts and difficult-to-cut metals, steels and alloys is presented. New research made in the field of space, aviation, automobile, medical, computer and electronics, and others has created the need for small and fine holes with high aspect ratio in these materials. The primary investigations of ECM with the tubular tool electrode are presented. Compared with mechanical machining, shaped tube electrolytic machining (STEM) exhibits an advantage in producing micro-holes with a high aspect ratio and in producing the curved holes. In order to realize the process of electrochemical machining, experimental assembly with the shaped tube tool electrode has been designed and manufactured. Completed researches indicate that this tool electrode has a high potential to machine difficult-to-cut and brittle metals economically and efficiently.https://doi.org/10.1051/matecconf/201822603017
collection DOAJ
language English
format Article
sources DOAJ
author Glebov Vladimir V.
Danilenko Irina N.
Ratushinsky Ruslan I.
spellingShingle Glebov Vladimir V.
Danilenko Irina N.
Ratushinsky Ruslan I.
Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining
MATEC Web of Conferences
author_facet Glebov Vladimir V.
Danilenko Irina N.
Ratushinsky Ruslan I.
author_sort Glebov Vladimir V.
title Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining
title_short Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining
title_full Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining
title_fullStr Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining
title_full_unstemmed Hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining
title_sort hole drilling and milling of magnetic alloys parts by shaped tube electrolytic machining
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description In this research shaped tube electrolytic machining of drilling and milling of magnetic alloys parts and difficult-to-cut metals, steels and alloys is presented. New research made in the field of space, aviation, automobile, medical, computer and electronics, and others has created the need for small and fine holes with high aspect ratio in these materials. The primary investigations of ECM with the tubular tool electrode are presented. Compared with mechanical machining, shaped tube electrolytic machining (STEM) exhibits an advantage in producing micro-holes with a high aspect ratio and in producing the curved holes. In order to realize the process of electrochemical machining, experimental assembly with the shaped tube tool electrode has been designed and manufactured. Completed researches indicate that this tool electrode has a high potential to machine difficult-to-cut and brittle metals economically and efficiently.
url https://doi.org/10.1051/matecconf/201822603017
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AT danilenkoirinan holedrillingandmillingofmagneticalloyspartsbyshapedtubeelectrolyticmachining
AT ratushinskyruslani holedrillingandmillingofmagneticalloyspartsbyshapedtubeelectrolyticmachining
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