Understanding the impact of microstructure on the response of titanium alloys to aging treatments
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2020 |
| Tipo de documento: | Tese |
| Idioma: | eng |
| Título da fonte: | Biblioteca Digital de Teses e Dissertações da USP |
| Texto Completo: | https://www.teses.usp.br/teses/disponiveis/18/18150/tde-28092020-094356/ |
Resumo: | The impact of the initial microstructure on the behavior of the β-metastable alloy Ti-5Al-5Mo-5V-3Cr (Ti-5553, composition in wt%) and the α+β alloy Ti-6Al-4V (Ti-64, composition in wt%) during subsequent isothermal treatments has been evaluated in this work. Thermal and thermomechanical treatments were imposed to the alloys to achieve such microstructural variability. Regarding Ti-5553, it was concluded that the β phase undergoes dynamic recovery above and below its β-transus temperature, and recovery is more dominant at lower strain rates. Meanwhile, α phase undergoes not only a process of breakage and globularization, but also decomposition, which contributes to flow softening. The increase in strain rate caused non-uniform recovery in the β field and a more intense refinement of α precipitates in the α+β field. Macrotexture evaluation after deformation indicates that β\'s texture is much stronger than that of α, with its (200) component being the strongest one. Relevant microstructures were then selected to undergo aging treatments. Results show that the presence of deformation-induced defects accelerates phase precipitation during aging, and that the composition of the β matrix, which is affected by the amount of primary α, plays a major role. The α\'\' phase tends to form from the β matrix in high quantities without the presence of primary α phase or with a low fraction of this phase, and the conversion of α\'\' into α is sluggish, being faster in the β-heat-treated condition, whereas a continuous β → α transformation occurs, with little or no precipitation of α\'\' in the α+β-heat-treated condition. With respect to Ti-64, during deformation in the β field, lower strain rates appear to cause a decrease in the aspect ratio and in the c/a ratio of final martensitic laths and an increase in the final amount of retained β phase. Lower strain rates during deformation in the α+β field also increase the β phase fraction. However, an excessive amount of β causes its instability during quenching, with consequent transformation into secondary α. At a lower temperature in the α+β field, the globularization tendency of the alloy is significantly enhanced, especially during slow deformation. Significant fiber texture of the α/α\' phase was observed only after deformation in the β field. Grain orientation spread analyses have shown a high degree of internal misorientation in deformed α lamellae and the tendency of globularization of lamellae by the evolution of internal low angle boundaries to high angle boundaries. Conditions of interest were chosen for aging treatments. Results show that β decomposition into fine secondary α laths, transformation of the metastable martensitic α\' into the equilibrium α phase and precipitation of the intermetallic Ti3Al can take place during aging. The composition and distribution of the β phase was shown to affect the precipitation of secondary α during aging, while the composition of the α phase plays a key role on the formation of Ti3Al. In situ X-ray diffraction studies indicate the contribution to hardening by the increase of the c/a ratio during the α\' → α conversion and the chemical homogenization of the β phase. |
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Understanding the impact of microstructure on the response of titanium alloys to aging treatmentsCompreendendo o impacto microestrutural na resposta de ligas de titânio a tratamentos de envelhecimentoAgingDifração de elétrons retroespalhadosDifração de raios-XElectron backscatter diffractionEndurecimentoEnvelhecimentoHardeningLigas de titânioPhase transformationsProcessamento termomecânicoRadiação síncrotronSynchrotron radiationThermomechanical processingTitanium alloysTransformações de faseX-ray diffractionThe impact of the initial microstructure on the behavior of the β-metastable alloy Ti-5Al-5Mo-5V-3Cr (Ti-5553, composition in wt%) and the α+β alloy Ti-6Al-4V (Ti-64, composition in wt%) during subsequent isothermal treatments has been evaluated in this work. Thermal and thermomechanical treatments were imposed to the alloys to achieve such microstructural variability. Regarding Ti-5553, it was concluded that the β phase undergoes dynamic recovery above and below its β-transus temperature, and recovery is more dominant at lower strain rates. Meanwhile, α phase undergoes not only a process of breakage and globularization, but also decomposition, which contributes to flow softening. The increase in strain rate caused non-uniform recovery in the β field and a more intense refinement of α precipitates in the α+β field. Macrotexture evaluation after deformation indicates that β\'s texture is much stronger than that of α, with its (200) component being the strongest one. Relevant microstructures were then selected to undergo aging treatments. Results show that the presence of deformation-induced defects accelerates phase precipitation during aging, and that the composition of the β matrix, which is affected by the amount of primary α, plays a major role. The α\'\' phase tends to form from the β matrix in high quantities without the presence of primary α phase or with a low fraction of this phase, and the conversion of α\'\' into α is sluggish, being faster in the β-heat-treated condition, whereas a continuous β → α transformation occurs, with little or no precipitation of α\'\' in the α+β-heat-treated condition. With respect to Ti-64, during deformation in the β field, lower strain rates appear to cause a decrease in the aspect ratio and in the c/a ratio of final martensitic laths and an increase in the final amount of retained β phase. Lower strain rates during deformation in the α+β field also increase the β phase fraction. However, an excessive amount of β causes its instability during quenching, with consequent transformation into secondary α. At a lower temperature in the α+β field, the globularization tendency of the alloy is significantly enhanced, especially during slow deformation. Significant fiber texture of the α/α\' phase was observed only after deformation in the β field. Grain orientation spread analyses have shown a high degree of internal misorientation in deformed α lamellae and the tendency of globularization of lamellae by the evolution of internal low angle boundaries to high angle boundaries. Conditions of interest were chosen for aging treatments. Results show that β decomposition into fine secondary α laths, transformation of the metastable martensitic α\' into the equilibrium α phase and precipitation of the intermetallic Ti3Al can take place during aging. The composition and distribution of the β phase was shown to affect the precipitation of secondary α during aging, while the composition of the α phase plays a key role on the formation of Ti3Al. In situ X-ray diffraction studies indicate the contribution to hardening by the increase of the c/a ratio during the α\' → α conversion and the chemical homogenization of the β phase.O impacto da microestrutura inicial no comportamento da liga β metaestável Ti-5Al-5Mo-5V-3Cr (Ti-5553, composição em peso) e da liga α+β Ti-6Al-4V (Ti-64, composição em peso) durante tratamentos de envelhecimento foi avaliado neste trabalho. Tratamentos térmicos e termomecânicos foram impostos para alcançar tal variabilidade microestrutural. Com relação à liga Ti-5553, concluiu-se que a fase β sofre recuperação dinâmica acima e abaixo da β-transus, sendo mais dominante em taxas de deformação mais baixas. Enquanto isso, a fase sofre não apenas quebra e globularização, mas também decomposição, o que contribui para o amolecimento. O aumento na taxa de deformação causou recuperação não uniforme no campo β e um refinamento mais intenso da fase α no campo α+ β. A avaliação de macrotextura após a deformação indica que a textura da fase β é muito mais forte que a da fase α, com seu componente (200) sendo o mais intenso. Microestruturas relevantes foram subsequentemente selecionadas para tratamentos de envelhecimento. Os resultados mostram que a presença de defeitos induzidos por deformação acelera a precipitação da fase durante o envelhecimento e que a composição da matriz β, afetada pela quantidade de fase α primária presente, desempenha um papel importante. A fase α\'\' tende a se formar a partir da matriz β em grandes quantidades sem a presença da fase α primária ou com uma fração baixa dessa fase, e a conversão de α\'\' em α é lenta, sendo mais rápida após tratamento térmico no campo β, enquanto uma transformação β → α contínua, com pouca ou nenhuma precipitação de α\'\', ocorre após tratamento térmico no campo α+β. Com relação à Ti-64, taxas de deformação mais baixas no campo β parecem diminuir a razão de aspecto e a razão c/a das ripas martensíticas, e aumentar a quantidade de fase β retida. Taxas mais baixas durante a deformação no campo α+β também aumentam a fração da fase β. Porém, uma quantidade excessiva de fase β causa sua instabilidade durante a têmpera, com consequente transformação na fase α secundária. Em temperaturas mais baixas no campo α+β, a tendência de globularização da liga é significativamente aumentada, especialmente durante deformação lenta. Textura significativa do tipo fibra da fase α/α\' foi observada somente após deformação no campo β. Análises de dispersão da orientação dos grãos mostraram um alto grau de desorientação interna nas lamelas deformadas de α e a tendência de globularização das lamelas pela evolução dos contornos internos de baixo ângulo para contornos de alto ângulo. Condições de interesse foram escolhidas para tratamentos de envelhecimento posteriores. Os resultados mostram que a decomposição de β em uma refinada fase α secundária, a transformação da martensita metaestável na fase α de equilíbrio e a precipitação do intermetálico Ti3Al podem ocorrer durante o envelhecimento. Foi demonstrado que a composição e distribuição da fase β afetam a precipitação de α secundária, enquanto a composição da fase α desempenha um papel fundamental na formação de Ti3Al. Os estudos de difração de raios-X in situ indicam a contribuição para o endurecimento pelo aumento da razão c/a durante a conversão α\' → α e a homogeneização química da fase β.Biblioteca Digitais de Teses e Dissertações da USPPinto, Haroldo CavalcantiCallegari, Bruna2020-07-29info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisapplication/pdfhttps://www.teses.usp.br/teses/disponiveis/18/18150/tde-28092020-094356/reponame:Biblioteca Digital de Teses e Dissertações da USPinstname:Universidade de São Paulo (USP)instacron:USPLiberar o conteúdo para acesso público.info:eu-repo/semantics/openAccesseng2021-06-15T21:58:02Zoai:teses.usp.br:tde-28092020-094356Biblioteca Digital de Teses e Dissertaçõeshttp://www.teses.usp.br/PUBhttp://www.teses.usp.br/cgi-bin/mtd2br.plvirginia@if.usp.br|| atendimento@aguia.usp.br||virginia@if.usp.bropendoar:27212021-06-15T21:58:02Biblioteca Digital de Teses e Dissertações da USP - Universidade de São Paulo (USP)false |
| dc.title.none.fl_str_mv |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments Compreendendo o impacto microestrutural na resposta de ligas de titânio a tratamentos de envelhecimento |
| title |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments |
| spellingShingle |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments Callegari, Bruna Aging Difração de elétrons retroespalhados Difração de raios-X Electron backscatter diffraction Endurecimento Envelhecimento Hardening Ligas de titânio Phase transformations Processamento termomecânico Radiação síncrotron Synchrotron radiation Thermomechanical processing Titanium alloys Transformações de fase X-ray diffraction |
| title_short |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments |
| title_full |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments |
| title_fullStr |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments |
| title_full_unstemmed |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments |
| title_sort |
Understanding the impact of microstructure on the response of titanium alloys to aging treatments |
| author |
Callegari, Bruna |
| author_facet |
Callegari, Bruna |
| author_role |
author |
| dc.contributor.none.fl_str_mv |
Pinto, Haroldo Cavalcanti |
| dc.contributor.author.fl_str_mv |
Callegari, Bruna |
| dc.subject.por.fl_str_mv |
Aging Difração de elétrons retroespalhados Difração de raios-X Electron backscatter diffraction Endurecimento Envelhecimento Hardening Ligas de titânio Phase transformations Processamento termomecânico Radiação síncrotron Synchrotron radiation Thermomechanical processing Titanium alloys Transformações de fase X-ray diffraction |
| topic |
Aging Difração de elétrons retroespalhados Difração de raios-X Electron backscatter diffraction Endurecimento Envelhecimento Hardening Ligas de titânio Phase transformations Processamento termomecânico Radiação síncrotron Synchrotron radiation Thermomechanical processing Titanium alloys Transformações de fase X-ray diffraction |
| description |
The impact of the initial microstructure on the behavior of the β-metastable alloy Ti-5Al-5Mo-5V-3Cr (Ti-5553, composition in wt%) and the α+β alloy Ti-6Al-4V (Ti-64, composition in wt%) during subsequent isothermal treatments has been evaluated in this work. Thermal and thermomechanical treatments were imposed to the alloys to achieve such microstructural variability. Regarding Ti-5553, it was concluded that the β phase undergoes dynamic recovery above and below its β-transus temperature, and recovery is more dominant at lower strain rates. Meanwhile, α phase undergoes not only a process of breakage and globularization, but also decomposition, which contributes to flow softening. The increase in strain rate caused non-uniform recovery in the β field and a more intense refinement of α precipitates in the α+β field. Macrotexture evaluation after deformation indicates that β\'s texture is much stronger than that of α, with its (200) component being the strongest one. Relevant microstructures were then selected to undergo aging treatments. Results show that the presence of deformation-induced defects accelerates phase precipitation during aging, and that the composition of the β matrix, which is affected by the amount of primary α, plays a major role. The α\'\' phase tends to form from the β matrix in high quantities without the presence of primary α phase or with a low fraction of this phase, and the conversion of α\'\' into α is sluggish, being faster in the β-heat-treated condition, whereas a continuous β → α transformation occurs, with little or no precipitation of α\'\' in the α+β-heat-treated condition. With respect to Ti-64, during deformation in the β field, lower strain rates appear to cause a decrease in the aspect ratio and in the c/a ratio of final martensitic laths and an increase in the final amount of retained β phase. Lower strain rates during deformation in the α+β field also increase the β phase fraction. However, an excessive amount of β causes its instability during quenching, with consequent transformation into secondary α. At a lower temperature in the α+β field, the globularization tendency of the alloy is significantly enhanced, especially during slow deformation. Significant fiber texture of the α/α\' phase was observed only after deformation in the β field. Grain orientation spread analyses have shown a high degree of internal misorientation in deformed α lamellae and the tendency of globularization of lamellae by the evolution of internal low angle boundaries to high angle boundaries. Conditions of interest were chosen for aging treatments. Results show that β decomposition into fine secondary α laths, transformation of the metastable martensitic α\' into the equilibrium α phase and precipitation of the intermetallic Ti3Al can take place during aging. The composition and distribution of the β phase was shown to affect the precipitation of secondary α during aging, while the composition of the α phase plays a key role on the formation of Ti3Al. In situ X-ray diffraction studies indicate the contribution to hardening by the increase of the c/a ratio during the α\' → α conversion and the chemical homogenization of the β phase. |
| publishDate |
2020 |
| dc.date.none.fl_str_mv |
2020-07-29 |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/doctoralThesis |
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doctoralThesis |
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publishedVersion |
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https://www.teses.usp.br/teses/disponiveis/18/18150/tde-28092020-094356/ |
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https://www.teses.usp.br/teses/disponiveis/18/18150/tde-28092020-094356/ |
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eng |
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eng |
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|
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Liberar o conteúdo para acesso público. info:eu-repo/semantics/openAccess |
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Liberar o conteúdo para acesso público. |
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openAccess |
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application/pdf |
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Biblioteca Digitais de Teses e Dissertações da USP |
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Biblioteca Digitais de Teses e Dissertações da USP |
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reponame:Biblioteca Digital de Teses e Dissertações da USP instname:Universidade de São Paulo (USP) instacron:USP |
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Universidade de São Paulo (USP) |
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USP |
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Biblioteca Digital de Teses e Dissertações da USP |
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Biblioteca Digital de Teses e Dissertações da USP |
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Biblioteca Digital de Teses e Dissertações da USP - Universidade de São Paulo (USP) |
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virginia@if.usp.br|| atendimento@aguia.usp.br||virginia@if.usp.br |
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