﻿ ﻿﻿ Contributions regarding the improvement of installations for the machining of conductive materials through impulse electric discharges in subexcitation regime
 Conţinutul numărului revistei Articolul precedent Articolul urmator 78 0 Căutarea după subiecte similare conform CZU 620 (564) Încercarea materialelor. Materiale comerciale și cunoașterea mărfurilor, centrale energetice. Economie energetică (544) SM ISO690:2012BĂLCĂNUŢĂ, Nicolae. Contributions regarding the improvement of installations for the machining of conductive materials through impulse electric discharges in subexcitation regime. In: The Scientific Journal of Cahul State University “Bogdan Petriceicu Hasdeu” Economic and Engineering Studies. 2020, nr. 2(8), pp. 100-106. ISSN 2587-313X. EXPORT metadate: Google Scholar Crossref CERIF DataCiteDublin Core
The Scientific Journal of Cahul State University “Bogdan Petriceicu Hasdeu” Economic and Engineering Studies
Numărul 2(8) / 2020 / ISSN 2587-313X /ISSNe 2587-3121

 Contributions regarding the improvement of installations for the machining of conductive materials through impulse electric discharges in subexcitation regime

CZU: 620
Pag. 100-106

 Bălcănuţă Nicolae Cahul State University "Bogdan Petriceicu Hasdeu" Disponibil în IBN: 3 mai 2021

Rezumat

The method of machining by impulse electric discharges in subexcitation regime (IEDSR) presents a machining method that allows obtaining some superficial layers whose properties differ from the properties of the basic material of the piece. This machining method has a lot of advantages compared to other machining methods such as, formation of the intermediate layer between the deposited layer and the base material, the lack of formation of micro cracks on the processed surface, possibility of using a wide variety of materials and so on. At the same time, the low productivity of the process, obtaining a surface with a high roughness, obtaining a non-homogeneous surface, make inefficient the using the given process. The paper below presents a description of the solution for layer deposition by IEDSR. The endowment of installation with a multi-electrode system that is powered by the generator of impulses and the use of two stepper motors that can execute up to 1800 micro-steps, controlled by a programmable microcontroller, successfully eliminates the disadvantages of the IEDSR machining process.

Cuvinte-cheie
Impulse electric discharge, subexcitation regime, multi-electrode system, Microcontroller, stepper motors

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