Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers

Detalhes bibliográficos
Autor(a) principal: Nascimento, Rubens Maribondo do
Data de Publicação: 2007
Outros Autores: Martinelli, Antonio Eduardo, Buschinelli, Augusto José de Almeida, Sigismund, Egon
Tipo de documento: Artigo
Idioma: eng
Título da fonte: Repositório Institucional da UFRN
Texto Completo: https://repositorio.ufrn.br/handle/123456789/32223
Resumo: Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirectly. In this case, the ceramic surface is metallized by an active metal prior to joining using active-metal free alloys. Although direct brazing is a quite versatile technique, active filler alloys, usually containing Ti, are rather costly materials. With the recent development of new and simple metallizing techniques, reliable joints have been made at reduced costs, thus widening the range of potential applications for ceramic/metal components. In particular, the mechanical metallization with Ti tools has been successfully applied at lab scale to both oxide and non-oxide ceramics. In particular, alumina/metal joints have been thoroughly studied using a variety of commercially available active metal free fillers. Nonetheless, the effect of the filler composition on the microstructure of the joint interface is still under current investigation. In this scenario, the present study reports on the microstructure of interfaces resulting from indirectly brazing mechanically metallized alumina to Fe–Ni–Co. Brazing was carried out under high vacuum (3.0 × 10−5 mbar) using commercial Ag–Cu, Ag–Cu–Pd and Au–Ni filler alloys. The results revealed that all active metal free alloys tested wetted and brazed metallized alumina to Fe–Ni–Co. The choice of filler determined different brazing temperature ranges. The microstructure of the interfaces was similar to that obtained by direct brazing and basically consisted of a reaction layer and intermetallics. The reaction layer was formed as a result of the interaction of the Ti layer coating the surface of alumina with the filler alloy and the species of the dissociated ceramic. The use of Ag–Cu–Pd resulted in higher contents of intermetallics comparing to the other fillers
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spelling Nascimento, Rubens Maribondo doMartinelli, Antonio EduardoBuschinelli, Augusto José de AlmeidaSigismund, Egon2021-04-15T20:36:01Z2021-04-15T20:36:01Z2007-09-25NASCIMENTO, R. M. ; MARTINELLI, A. E. ; BUSCHINELLI, Augusto José de Almeida ; SIGISMUND, Egon . Interface microstructure of alumina mechanically metallized with Ti brazed to Fe-Ni-Co using different fillers. Materials Science & Engineering. A, Structural Materials: properties, microstructure and processing, v. 466, p. 195-200, 2007. Disponível em: https://www.sciencedirect.com/science/article/abs/pii/S0921509307003474?via%3Dihub Acesso em: 16 nov. 2020. https://doi.org/10.1016/j.msea.2007.02.0330921-5093https://repositorio.ufrn.br/handle/123456789/3222310.1016/j.msea.2007.02.033ElsevierAttribution 3.0 Brazilhttp://creativecommons.org/licenses/by/3.0/br/info:eu-repo/semantics/openAccessBrazingMetal/ceramicMechanical metallizationInterface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillersinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleCeramic/metal brazing can be carried out either directly using active metal filler alloys or indirectly. In this case, the ceramic surface is metallized by an active metal prior to joining using active-metal free alloys. Although direct brazing is a quite versatile technique, active filler alloys, usually containing Ti, are rather costly materials. With the recent development of new and simple metallizing techniques, reliable joints have been made at reduced costs, thus widening the range of potential applications for ceramic/metal components. In particular, the mechanical metallization with Ti tools has been successfully applied at lab scale to both oxide and non-oxide ceramics. In particular, alumina/metal joints have been thoroughly studied using a variety of commercially available active metal free fillers. Nonetheless, the effect of the filler composition on the microstructure of the joint interface is still under current investigation. In this scenario, the present study reports on the microstructure of interfaces resulting from indirectly brazing mechanically metallized alumina to Fe–Ni–Co. Brazing was carried out under high vacuum (3.0 × 10−5 mbar) using commercial Ag–Cu, Ag–Cu–Pd and Au–Ni filler alloys. The results revealed that all active metal free alloys tested wetted and brazed metallized alumina to Fe–Ni–Co. The choice of filler determined different brazing temperature ranges. The microstructure of the interfaces was similar to that obtained by direct brazing and basically consisted of a reaction layer and intermetallics. The reaction layer was formed as a result of the interaction of the Ti layer coating the surface of alumina with the filler alloy and the species of the dissociated ceramic. 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dc.title.pt_BR.fl_str_mv Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
title Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
spellingShingle Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
Nascimento, Rubens Maribondo do
Brazing
Metal/ceramic
Mechanical metallization
title_short Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
title_full Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
title_fullStr Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
title_full_unstemmed Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
title_sort Interface microstructure of alumina mechanically metallized with Ti brazed to Fe–Ni–Co using different fillers
author Nascimento, Rubens Maribondo do
author_facet Nascimento, Rubens Maribondo do
Martinelli, Antonio Eduardo
Buschinelli, Augusto José de Almeida
Sigismund, Egon
author_role author
author2 Martinelli, Antonio Eduardo
Buschinelli, Augusto José de Almeida
Sigismund, Egon
author2_role author
author
author
dc.contributor.author.fl_str_mv Nascimento, Rubens Maribondo do
Martinelli, Antonio Eduardo
Buschinelli, Augusto José de Almeida
Sigismund, Egon
dc.subject.por.fl_str_mv Brazing
Metal/ceramic
Mechanical metallization
topic Brazing
Metal/ceramic
Mechanical metallization
description Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirectly. In this case, the ceramic surface is metallized by an active metal prior to joining using active-metal free alloys. Although direct brazing is a quite versatile technique, active filler alloys, usually containing Ti, are rather costly materials. With the recent development of new and simple metallizing techniques, reliable joints have been made at reduced costs, thus widening the range of potential applications for ceramic/metal components. In particular, the mechanical metallization with Ti tools has been successfully applied at lab scale to both oxide and non-oxide ceramics. In particular, alumina/metal joints have been thoroughly studied using a variety of commercially available active metal free fillers. Nonetheless, the effect of the filler composition on the microstructure of the joint interface is still under current investigation. In this scenario, the present study reports on the microstructure of interfaces resulting from indirectly brazing mechanically metallized alumina to Fe–Ni–Co. Brazing was carried out under high vacuum (3.0 × 10−5 mbar) using commercial Ag–Cu, Ag–Cu–Pd and Au–Ni filler alloys. The results revealed that all active metal free alloys tested wetted and brazed metallized alumina to Fe–Ni–Co. The choice of filler determined different brazing temperature ranges. The microstructure of the interfaces was similar to that obtained by direct brazing and basically consisted of a reaction layer and intermetallics. The reaction layer was formed as a result of the interaction of the Ti layer coating the surface of alumina with the filler alloy and the species of the dissociated ceramic. The use of Ag–Cu–Pd resulted in higher contents of intermetallics comparing to the other fillers
publishDate 2007
dc.date.issued.fl_str_mv 2007-09-25
dc.date.accessioned.fl_str_mv 2021-04-15T20:36:01Z
dc.date.available.fl_str_mv 2021-04-15T20:36:01Z
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/article
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status_str publishedVersion
dc.identifier.citation.fl_str_mv NASCIMENTO, R. M. ; MARTINELLI, A. E. ; BUSCHINELLI, Augusto José de Almeida ; SIGISMUND, Egon . Interface microstructure of alumina mechanically metallized with Ti brazed to Fe-Ni-Co using different fillers. Materials Science & Engineering. A, Structural Materials: properties, microstructure and processing, v. 466, p. 195-200, 2007. Disponível em: https://www.sciencedirect.com/science/article/abs/pii/S0921509307003474?via%3Dihub Acesso em: 16 nov. 2020. https://doi.org/10.1016/j.msea.2007.02.033
dc.identifier.uri.fl_str_mv https://repositorio.ufrn.br/handle/123456789/32223
dc.identifier.issn.none.fl_str_mv 0921-5093
dc.identifier.doi.none.fl_str_mv 10.1016/j.msea.2007.02.033
identifier_str_mv NASCIMENTO, R. M. ; MARTINELLI, A. E. ; BUSCHINELLI, Augusto José de Almeida ; SIGISMUND, Egon . Interface microstructure of alumina mechanically metallized with Ti brazed to Fe-Ni-Co using different fillers. Materials Science & Engineering. A, Structural Materials: properties, microstructure and processing, v. 466, p. 195-200, 2007. Disponível em: https://www.sciencedirect.com/science/article/abs/pii/S0921509307003474?via%3Dihub Acesso em: 16 nov. 2020. https://doi.org/10.1016/j.msea.2007.02.033
0921-5093
10.1016/j.msea.2007.02.033
url https://repositorio.ufrn.br/handle/123456789/32223
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http://creativecommons.org/licenses/by/3.0/br/
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