Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)

Detalhes bibliográficos
Autor(a) principal: Silva, Bismarck Luiz
Data de Publicação: 2013
Tipo de documento: Dissertação
Idioma: por
Título da fonte: Repositório Institucional da UFSCAR
Texto Completo: https://repositorio.ufscar.br/handle/ufscar/910
Resumo: Sn-Pb traditional solder alloys were overly utilize in electronic devices industry, since their properties and features use were adequate and well known. In the last years many restrictions and directives were and have been designed with a view to minimize or eliminate the use of this metal in the electronic industry. Thereby, several lead-free solder alloys emerged. Among these alloys, eutectic Sn-0.7wt%Cu (TE=227°C) appears as potential candidate to replace eutectic Sn-37wt%Pb alloys, because present low cost when compared with the other lead-free solder alloys. Fatigue resistance and fluidity are quite similar compared with those obtained for the traditional Sn-Pb alloys. Small alloying additions of Ni in Sn-Cu eutectics between levels 20-1000ppm Ni can improve welding properties such as good fluidity, reliability, fine degree of wetting, ensuring suitable mechanical resistance of solder joint. Thus, the main goals of present study are investigate the influence of the Ni microadditions on solidification thermal parameters (transient interfacial heat transfer coefficient - hi), eutectic growth rate v and cooling rate - Ṫ), microstructure features (dendritic and cellular spacings, λ1 and λC) and tensile properties in directionally solidified Sn-0.7wt%Cu, Sn-0.7wt%Cu-0.05wt%Ni e Sn-0.7wt%Cu-0.1wt%Ni alloys under unsteady-state conditions against AISI steel carbon 1020 water-cooled bottom part. Measurements of hi coefficient showed that Ni microadditions (500 and 1000ppm of Ni) in the eutectic Sn-0.7wt%Cu affected significantly the fluidity levels. The microstructures obtained for the Sn-0,7wt%Cu-(xNi) alloys presented eutectic colonies/cells along the casting length, with dendritic regions only on first positions close to the bottom. Small Ni additions promoted increase on ultimate tensile strength (σu) and elongation (δ), with the Sn-0.7wt%Cu-0.05wt%Ni alloy corresponding to the better combination of σu and δ, 36.6MPa and 12.1%, respectively.
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spelling Silva, Bismarck LuizSpinelli, José Eduardohttp://lattes.cnpq.br/8882038118634925http://lattes.cnpq.br/43772381906300052016-06-02T19:12:32Z2013-10-222016-06-02T19:12:32Z2013-07-29https://repositorio.ufscar.br/handle/ufscar/910Sn-Pb traditional solder alloys were overly utilize in electronic devices industry, since their properties and features use were adequate and well known. In the last years many restrictions and directives were and have been designed with a view to minimize or eliminate the use of this metal in the electronic industry. Thereby, several lead-free solder alloys emerged. Among these alloys, eutectic Sn-0.7wt%Cu (TE=227°C) appears as potential candidate to replace eutectic Sn-37wt%Pb alloys, because present low cost when compared with the other lead-free solder alloys. Fatigue resistance and fluidity are quite similar compared with those obtained for the traditional Sn-Pb alloys. Small alloying additions of Ni in Sn-Cu eutectics between levels 20-1000ppm Ni can improve welding properties such as good fluidity, reliability, fine degree of wetting, ensuring suitable mechanical resistance of solder joint. Thus, the main goals of present study are investigate the influence of the Ni microadditions on solidification thermal parameters (transient interfacial heat transfer coefficient - hi), eutectic growth rate v and cooling rate - Ṫ), microstructure features (dendritic and cellular spacings, λ1 and λC) and tensile properties in directionally solidified Sn-0.7wt%Cu, Sn-0.7wt%Cu-0.05wt%Ni e Sn-0.7wt%Cu-0.1wt%Ni alloys under unsteady-state conditions against AISI steel carbon 1020 water-cooled bottom part. Measurements of hi coefficient showed that Ni microadditions (500 and 1000ppm of Ni) in the eutectic Sn-0.7wt%Cu affected significantly the fluidity levels. The microstructures obtained for the Sn-0,7wt%Cu-(xNi) alloys presented eutectic colonies/cells along the casting length, with dendritic regions only on first positions close to the bottom. Small Ni additions promoted increase on ultimate tensile strength (σu) and elongation (δ), with the Sn-0.7wt%Cu-0.05wt%Ni alloy corresponding to the better combination of σu and δ, 36.6MPa and 12.1%, respectively.As tradicionais ligas de soldagem Sn-Pb foram excessivamente utilizadas na indústria de dispositivos eletrônicos, uma vez que suas características de uso e propriedades eram adequadas e bem conhecidas. Contudo, devido aos problemas acarretados pela toxidade do Pb, várias restrições/diretrizes foram e estão sendo criadas a fim de minimizar ou eliminar o uso desse metal na indústria eletrônica. Com isso, diversas ligas de soldagem livres de Pb surgiram e dentre tais ligas, a liga eutética Sn-0,7%Cu (TE=227°C) surge com uma alternativa promissora para a substituição de ligas de solda contendo Pb, pois apresentam menor custo que as demais ligas de soldagem e propriedades como resistência à fadiga e fluidez semelhantes às obtidas para ligas do sistema Sn-Pb. Neste contexto, microadições de Ni em ligas eutéticas Sn-Cu em níveis entre 20 e 1000ppm podem trazer melhorias de propriedades de soldagem como boa fluidez, boa soldabilidade, bom grau de molhamento, garantindo adequada resistência mecânica da junta soldada. Assim, o presente estudo objetiva investigar a influência de microadições de Ni nos parâmetros térmicos de solidificação (coeficiente interfacial de transferência de calor metal/molde - hi, velocidade de solidificação - v e taxa de resfriamento - Ṫ), nas características estruturais (espaçamento intercelular e interdendrítico, λC e λ1) e nas propriedades mecânicas de tração das ligas Sn-0,7%Cu, Sn-0,7%Cu-0,05%Ni e Sn-0,7%Cu-0,1%Ni solidificadas unidirecionalmente no sentido vertical ascendente contra chapa molde de aço carbono 1020. Os valores de hi mostraram que microadições de Ni (500 e 1000ppm) em ligas eutéticas Sn-0,7%Cu afetaram consideravelmente o nível de fluidez. As microestruturas das ligas Sn-0,7%Cu-(xNi) apresentaram colônias eutéticas ao longo dos lingotes, com regiões dendríticas apenas nas posições próximas da base refrigerada. As microadições de Ni promoveram um aumento do limite de resistência à tração (σu) e do alongamento específico (δ), com a liga Sn-0,7%Cu-0,05%Ni apresentando a melhor combinação σu/δ, 36,6 MPa e 12,1%, respectivamente.application/pdfporUniversidade Federal de São CarlosPrograma de Pós-Graduação em Ciência e Engenharia de Materiais - PPGCEMUFSCarBRSolidificaçãoLiga eutéticaParâmetros térmicos de solidificaçãoMicroestruturaPropriedades mecânicasENGENHARIAS::ENGENHARIA DE MATERIAIS E METALURGICAParâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)Solidification thermal parameters, microstructure and mechanical resistance of the eutectic Sn-0,7wt%Cu (-Ni) alloysinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINAL5520.pdfapplication/pdf15957813https://{{ getenv "DSPACE_HOST" "repositorio.ufscar.br" }}/bitstream/ufscar/910/1/5520.pdf79aec06af1bae5d8465f546113e03184MD51TEXT5520.pdf.txt5520.pdf.txtExtracted texttext/plain0https://{{ getenv "DSPACE_HOST" "repositorio.ufscar.br" }}/bitstream/ufscar/910/2/5520.pdf.txtd41d8cd98f00b204e9800998ecf8427eMD52THUMBNAIL5520.pdf.jpg5520.pdf.jpgIM Thumbnailimage/jpeg6029https://{{ getenv "DSPACE_HOST" "repositorio.ufscar.br" }}/bitstream/ufscar/910/3/5520.pdf.jpg871abed97e728c770c0f815ece7722b2MD53ufscar/9102019-09-11 04:04:40.312oai:repositorio.ufscar.br:ufscar/910Repositório InstitucionalPUBhttps://repositorio.ufscar.br/oai/requestopendoar:43222019-09-11T04:04:40Repositório Institucional da UFSCAR - Universidade Federal de São Carlos (UFSCAR)false
dc.title.por.fl_str_mv Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
dc.title.alternative.eng.fl_str_mv Solidification thermal parameters, microstructure and mechanical resistance of the eutectic Sn-0,7wt%Cu (-Ni) alloys
title Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
spellingShingle Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
Silva, Bismarck Luiz
Solidificação
Liga eutética
Parâmetros térmicos de solidificação
Microestrutura
Propriedades mecânicas
ENGENHARIAS::ENGENHARIA DE MATERIAIS E METALURGICA
title_short Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
title_full Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
title_fullStr Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
title_full_unstemmed Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
title_sort Parâmetros térmicos de solidificação, microestrutura e resistência mecânica de ligas eutéticas Sn-0,7%Cu-(xNi)
author Silva, Bismarck Luiz
author_facet Silva, Bismarck Luiz
author_role author
dc.contributor.authorlattes.por.fl_str_mv http://lattes.cnpq.br/4377238190630005
dc.contributor.author.fl_str_mv Silva, Bismarck Luiz
dc.contributor.advisor1.fl_str_mv Spinelli, José Eduardo
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/8882038118634925
contributor_str_mv Spinelli, José Eduardo
dc.subject.por.fl_str_mv Solidificação
Liga eutética
Parâmetros térmicos de solidificação
Microestrutura
Propriedades mecânicas
topic Solidificação
Liga eutética
Parâmetros térmicos de solidificação
Microestrutura
Propriedades mecânicas
ENGENHARIAS::ENGENHARIA DE MATERIAIS E METALURGICA
dc.subject.cnpq.fl_str_mv ENGENHARIAS::ENGENHARIA DE MATERIAIS E METALURGICA
description Sn-Pb traditional solder alloys were overly utilize in electronic devices industry, since their properties and features use were adequate and well known. In the last years many restrictions and directives were and have been designed with a view to minimize or eliminate the use of this metal in the electronic industry. Thereby, several lead-free solder alloys emerged. Among these alloys, eutectic Sn-0.7wt%Cu (TE=227°C) appears as potential candidate to replace eutectic Sn-37wt%Pb alloys, because present low cost when compared with the other lead-free solder alloys. Fatigue resistance and fluidity are quite similar compared with those obtained for the traditional Sn-Pb alloys. Small alloying additions of Ni in Sn-Cu eutectics between levels 20-1000ppm Ni can improve welding properties such as good fluidity, reliability, fine degree of wetting, ensuring suitable mechanical resistance of solder joint. Thus, the main goals of present study are investigate the influence of the Ni microadditions on solidification thermal parameters (transient interfacial heat transfer coefficient - hi), eutectic growth rate v and cooling rate - Ṫ), microstructure features (dendritic and cellular spacings, λ1 and λC) and tensile properties in directionally solidified Sn-0.7wt%Cu, Sn-0.7wt%Cu-0.05wt%Ni e Sn-0.7wt%Cu-0.1wt%Ni alloys under unsteady-state conditions against AISI steel carbon 1020 water-cooled bottom part. Measurements of hi coefficient showed that Ni microadditions (500 and 1000ppm of Ni) in the eutectic Sn-0.7wt%Cu affected significantly the fluidity levels. The microstructures obtained for the Sn-0,7wt%Cu-(xNi) alloys presented eutectic colonies/cells along the casting length, with dendritic regions only on first positions close to the bottom. Small Ni additions promoted increase on ultimate tensile strength (σu) and elongation (δ), with the Sn-0.7wt%Cu-0.05wt%Ni alloy corresponding to the better combination of σu and δ, 36.6MPa and 12.1%, respectively.
publishDate 2013
dc.date.available.fl_str_mv 2013-10-22
2016-06-02T19:12:32Z
dc.date.issued.fl_str_mv 2013-07-29
dc.date.accessioned.fl_str_mv 2016-06-02T19:12:32Z
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/masterThesis
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dc.rights.driver.fl_str_mv info:eu-repo/semantics/openAccess
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dc.format.none.fl_str_mv application/pdf
dc.publisher.none.fl_str_mv Universidade Federal de São Carlos
dc.publisher.program.fl_str_mv Programa de Pós-Graduação em Ciência e Engenharia de Materiais - PPGCEM
dc.publisher.initials.fl_str_mv UFSCar
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