Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel

Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel

The welding of steel of low carbon content is a common practice in the nickel industry, where components with steels of these characteristics are manufactured. The objective of the paper was to establish the microstructural behavior of the AISI 1025 steel when it was welded with two types of electro...

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Main Authors: Dennis Reyes-Carcasés, Tomás H. Fernández-Columbié, Dayanis Alcántara-Borges, Isnel Rodríguez-González
Format: Article
Language:Spanish
Published: Universidad de Moa "Dr. Antonio Núñez Jiménez" 2018-01-01
Series:Minería y Geología
Subjects:
soldadura
acero de bajo carbono
electrodo E 6010
electrodo E 7018
microestructura
Online Access:http://revista.ismm.edu.cu/index.php/revistamg/article/view/1360
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spelling doaj-2cc86773187e40429da96fbe57824aa22020-11-25T02:52:10ZspaUniversidad de Moa "Dr. Antonio Núñez Jiménez"Minería y Geología1993-80122018-01-013411081211142Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steelDennis Reyes-Carcasés0Tomás H. Fernández-Columbié1Dayanis Alcántara-Borges2Isnel Rodríguez-González3CeproníquelInstitulo Superior Minero Metalurgico MoaInstituto Superior Minero MetalúrgicoInstituto Superior Minero MetalúrgicoThe welding of steel of low carbon content is a common practice in the nickel industry, where components with steels of these characteristics are manufactured. The objective of the paper was to establish the microstructural behavior of the AISI 1025 steel when it was welded with two types of electrodes (E 6010 and E 7018), the first one deposited as a mattress, and the second one to guarantee mechanical resistance; they were made in a 240 x 240 x 10 mm plate with simple bevel preparation. The microstructures obtained with the electrode E 6010 are of the ferrite type Widmanstátten, columnar ferrite and intergranular pearlite, with a hardness of 345 HV, while with the electrode E 7018 the microstructures are ferrite Widmanstátten, austenite and martensite, with hardness of 332 HV . The decrease in hardness in the latter case is associated with the thermal treatment of multipass annealing.http://revista.ismm.edu.cu/index.php/revistamg/article/view/1360soldaduraacero de bajo carbonoelectrodo E 6010electrodo E 7018microestructura
collection DOAJ
language Spanish
format Article
sources DOAJ
author Dennis Reyes-Carcasés
Tomás H. Fernández-Columbié
Dayanis Alcántara-Borges
Isnel Rodríguez-González
spellingShingle Dennis Reyes-Carcasés
Tomás H. Fernández-Columbié
Dayanis Alcántara-Borges
Isnel Rodríguez-González
Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel
Minería y Geología
soldadura
acero de bajo carbono
electrodo E 6010
electrodo E 7018
microestructura
author_facet Dennis Reyes-Carcasés
Tomás H. Fernández-Columbié
Dayanis Alcántara-Borges
Isnel Rodríguez-González
author_sort Dennis Reyes-Carcasés
title Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel
title_short Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel
title_full Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel
title_fullStr Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel
title_full_unstemmed Welding with coated electrodes E 6010 and E 7018 in AISI 1025 steel
title_sort welding with coated electrodes e 6010 and e 7018 in aisi 1025 steel
publisher Universidad de Moa "Dr. Antonio Núñez Jiménez"
series Minería y Geología
issn 1993-8012
publishDate 2018-01-01
description The welding of steel of low carbon content is a common practice in the nickel industry, where components with steels of these characteristics are manufactured. The objective of the paper was to establish the microstructural behavior of the AISI 1025 steel when it was welded with two types of electrodes (E 6010 and E 7018), the first one deposited as a mattress, and the second one to guarantee mechanical resistance; they were made in a 240 x 240 x 10 mm plate with simple bevel preparation. The microstructures obtained with the electrode E 6010 are of the ferrite type Widmanstátten, columnar ferrite and intergranular pearlite, with a hardness of 345 HV, while with the electrode E 7018 the microstructures are ferrite Widmanstátten, austenite and martensite, with hardness of 332 HV . The decrease in hardness in the latter case is associated with the thermal treatment of multipass annealing.
topic soldadura
acero de bajo carbono
electrodo E 6010
electrodo E 7018
microestructura
url http://revista.ismm.edu.cu/index.php/revistamg/article/view/1360
work_keys_str_mv AT dennisreyescarcases weldingwithcoatedelectrodese6010ande7018inaisi1025steel
AT tomashfernandezcolumbie weldingwithcoatedelectrodese6010ande7018inaisi1025steel
AT dayanisalcantaraborges weldingwithcoatedelectrodese6010ande7018inaisi1025steel
AT isnelrodriguezgonzalez weldingwithcoatedelectrodese6010ande7018inaisi1025steel
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