Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy

Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy

The objective of this investigation is to determine the relation between the transformations of phases occurring during the rotational friction welding of AA 5754 12-mm-diameter aluminum alloys. The process was carried out using a 16 K 20 lathe based on joint parameters ranging between 1 200 and 1 4...

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Main Authors: Elís Efraín Guzmán-Romero, Tomás Hernaldo Fernández Columbié, Dayanis Alcántara-Borges, Isnel Rodríguez-González
Format: Article
Language:Spanish
Published: Universidad de Moa "Dr. Antonio Núñez Jiménez" 2017-07-01
Series:Minería y Geología
Subjects:
soldadura
fricción rotativa
transformación de fases
microestructura
precipitados
aleación AA 5754.
Online Access:http://revista.ismm.edu.cu/index.php/revistamg/article/view/1359
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spelling doaj-d6bb9cd24b154d12ad6c4b6150efdfa22020-11-25T02:17:49ZspaUniversidad de Moa "Dr. Antonio Núñez Jiménez"Minería y Geología1993-80122017-07-013333123251104Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloyElís Efraín Guzmán-Romero0Tomás Hernaldo Fernández Columbié1Dayanis Alcántara-Borges2Isnel Rodríguez-González3Departamento de Mecánica, Instituto Superior Minero MetalúrgicoDepartamento de Mecánica, Instituto Superior Minero MetalúrgicoDepartamento de Mecánica, Instituto Superior Minero MetalúrgicoDepartamento de Mecánica, Instituto Superior Minero MetalúrgicoThe objective of this investigation is to determine the relation between the transformations of phases occurring during the rotational friction welding of AA 5754 12-mm-diameter aluminum alloys. The process was carried out using a 16 K 20 lathe based on joint parameters ranging between 1 200 and 1 400 rev/min with a pressure of 0,9 and 1,9 MPa, respectively. It was determined that the friction temperature decreases as the number of revolutions increases as well as the metallurgical variation both in the thermo-mechanically affected area and in the thermally affected area. The hardness profiles show the increase by the plastic flow effect, metallurgical variations and the existence of precipitates.http://revista.ismm.edu.cu/index.php/revistamg/article/view/1359soldadurafricción rotativatransformación de fasesmicroestructuraprecipitadosaleación AA 5754.
collection DOAJ
language Spanish
format Article
sources DOAJ
author Elís Efraín Guzmán-Romero
Tomás Hernaldo Fernández Columbié
Dayanis Alcántara-Borges
Isnel Rodríguez-González
spellingShingle Elís Efraín Guzmán-Romero
Tomás Hernaldo Fernández Columbié
Dayanis Alcántara-Borges
Isnel Rodríguez-González
Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy
Minería y Geología
soldadura
fricción rotativa
transformación de fases
microestructura
precipitados
aleación AA 5754.
author_facet Elís Efraín Guzmán-Romero
Tomás Hernaldo Fernández Columbié
Dayanis Alcántara-Borges
Isnel Rodríguez-González
author_sort Elís Efraín Guzmán-Romero
title Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy
title_short Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy
title_full Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy
title_fullStr Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy
title_full_unstemmed Effect of angular velocity and pressure in radial friction welding of AA 5754 aluminum alloy
title_sort effect of angular velocity and pressure in radial friction welding of aa 5754 aluminum alloy
publisher Universidad de Moa "Dr. Antonio Núñez Jiménez"
series Minería y Geología
issn 1993-8012
publishDate 2017-07-01
description The objective of this investigation is to determine the relation between the transformations of phases occurring during the rotational friction welding of AA 5754 12-mm-diameter aluminum alloys. The process was carried out using a 16 K 20 lathe based on joint parameters ranging between 1 200 and 1 400 rev/min with a pressure of 0,9 and 1,9 MPa, respectively. It was determined that the friction temperature decreases as the number of revolutions increases as well as the metallurgical variation both in the thermo-mechanically affected area and in the thermally affected area. The hardness profiles show the increase by the plastic flow effect, metallurgical variations and the existence of precipitates.
topic soldadura
fricción rotativa
transformación de fases
microestructura
precipitados
aleación AA 5754.
url http://revista.ismm.edu.cu/index.php/revistamg/article/view/1359
work_keys_str_mv AT elisefrainguzmanromero effectofangularvelocityandpressureinradialfrictionweldingofaa5754aluminumalloy
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AT dayanisalcantaraborges effectofangularvelocityandpressureinradialfrictionweldingofaa5754aluminumalloy
AT isnelrodriguezgonzalez effectofangularvelocityandpressureinradialfrictionweldingofaa5754aluminumalloy
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