Browsing by Author "Cracan, Cornel"
Now showing 1 - 4 of 4
Results Per Page
Sort Options
Item Cercetări experimentale privind prelucrarea complexă a oţelurilor cu un conţinut de carbon < 0,35% [Articol](USARB, 2022) Pereteatcu, Pavel; Ojegov, Alexandr; Cracan, Cornel; Ţîganaş, Ion; Rusnac, VladislavThe paper presents some results of the complex processing of metal surfaces made of steel with a carbon content ≤ 0.35%. The complex processing was performed in different consecutiveness: ESA + CHTT and CHTT + ESA. Electrodes – anodes for ESA were made of Chromium and Aluminum. The obtained results demonstrated the effectiveness of such processing, which finally leads to the improvement of some physical-mechanical characteristics of the metal surfaces.Item Cercetări privind legităţile alierii prin scântei electrice cu electrozi diamagnetici în câmp magnetic aplicat suplimentar din exterior [Articol](USARB, 2022) Pereteatcu, Pavel; Cracan, Cornel; Ţîganaş, IonThe paper presents some results on the research of the legitimacy of the influence of the magnetic field applied on the process of alloying by electric sparks with electrodes with demagnetic properties.Item Despre influența câmpului magnetic asupra procesului de prelucrare prin electroeroziune [Articol](USARB, 2016) Pereteatcu, Pavel; Cracan, CornelSome results about the influence of magnetic field on deposits obtained using ASE. It was established that coefficient mass transport depends on magnetic field induction vector direction towards the discharge current, so to St3, Ni alloy electrode, coefficient maximum is 0.79, in case the B and I are collinear.Item Particularităţi de prelucrare a oţelurilor-carbon în plasmă electrolitică de tensiune joasă cu acţiunea suplimentară a câmpului magnetic [Articol](USARB, 2020) Pereteatcu, Pavel; Cracan, Cornel; Ţîganaş, IonThe paper presents some results of St3 steel processing in low voltage electrolytic plasma with the application on the work area of a variable induction magnetic field, research has demonstrated the effectiveness of applying complex surface layer processing technology to increase operating characteristics.