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Characterization of Thick Hard Layers with ni-Cr-B-Fe-Al Alloy Obtained by Laser Cladding

dc.contributor.authorDrugescu, Elena
dc.contributor.authorBoiciuc, Simona
dc.contributor.authorGheorghieș, Constantin
dc.date.accessioned2018-11-07T11:39:20Z
dc.date.available2018-11-07T11:39:20Z
dc.date.issued2009
dc.identifier.issn1453 – 083X
dc.identifier.urihttp://10.11.10.50/xmlui/handle/123456789/5649
dc.descriptionTHE ANNALS OF “DUNAREA DE JOS” UNIVERSITY OF GALATI. FASCICLE IX. METALLURGY AND MATERIALS SCIENCE N0. 1 – 2009, ISSN 1453 – 083Xro_RO
dc.description.abstractTo increase the resistance to wear and corrosion of the surface layers made from steel with 0.45% C, multilayer deposition was tested by injection of powder with chemical composition of 8.9% Cr, 4.5% Fe, 5.1% B, 2, 4% Al, 0.6% Al; the remaining Ni, was melted in the bath with a CO2 laser in continuous wave and coupled to a mass in coordinates x-y-z. To establish the optimum deposition condition, the layers made with different laser regimes were characterized by macro-and microstructural analysis, qualitative analysis of phase with the radiation difractometry X microhardness analysis and determination of hardness on the surface of the deposited layer. Thermal stability of the laser deposited layers and their abrasive wear behavior were monitored.ro_RO
dc.language.isoenro_RO
dc.publisherUniversitatea "Dunărea de Jos" din Galațiro_RO
dc.subjectlaser claddingro_RO
dc.subjectnickel alloyro_RO
dc.subjectmicrostructurero_RO
dc.subjectmicrohardnessro_RO
dc.subjectdifractometryro_RO
dc.subjectthermal stabilityro_RO
dc.titleCharacterization of Thick Hard Layers with ni-Cr-B-Fe-Al Alloy Obtained by Laser Claddingro_RO
dc.typeArticlero_RO


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