Microscopic study regarding the microstructure evolution of the 8006 alloy in the plastic deformation process

Moldovan, Petru; Popescu, Gabriela; Miculescu, Florin

doi:10.1016/j.jmatprotec.2004.04.345

Cited by 35 publications

(12 citation statements)

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“…Moreover, spherical particles of aluminium boride can be seen on the surface of the sheets. They are small in size and non-deformable particles compared to the ductile aluminium matrix, but they can affect the performance of the sheet rolling [19,20].…”

Section: Methodsmentioning

confidence: 99%

“…They are small in size and non-deformable particles compared to the ductile aluminium matrix, but they can affect the performance of the sheet rolling. [19,20] Homogenization processing has a critical contribution by allowing the precipitation of excessive alloying elements in the solid solution before subsequent thermomechanical processing. However, the high solidification rate encountered in TRC (twin-roll casting) not only favours the supersaturation and metastable condition of the alloying elements, but also hinders their microsegregation.…”

Section: Introductionmentioning

confidence: 99%

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Effects of Homogenization Conditions on the Microstructure Evolution of Aluminium Alloy EN AW 8006

Vončina

Kresnik

Volšak

et al. 2020

Metals

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The industrial production of products, such as foil and aluminium alloy strips, begins with the production of semi-finished products in the form of slabs. These are produced by the continuous casting process, which is quick and does not allow the equilibrium conditions of solidification. Non-homogeneity—such as micro and macro segregation, non-equilibrium phases and microstructural constituents, as well as stresses arising during non-equilibrium solidification—are eliminated by means of homogenization annealing. In this way, a number of technological difficulties in the further processing of semi-finished products can be avoided. The aim of this research was the optimization of the homogenization annealing of the EN AW 8006 alloy. With the Thermo-Calc software, a thermodynamic simulation of equilibrium and non-equilibrium solidification was performed. Differential scanning calorimetry (DSC) was performed on selected samples in as-cast state and after various regimes of homogenization annealing and was used for the simulation of homogenization annealing. Using an optical microscope (OM), a scanning electron microscope (SEM) and an energy dispersion spectrometer (EDS), the microstructure of the samples was examined. Based on the results, it was concluded that homogenization annealing has already taken place after 8 h at 580 °C to the extent, that the material is then suitable for further processing.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effects of Homogenization Conditions on the Microstructure Evolution of Aluminium Alloy EN AW 8006

Vončina

Kresnik

Volšak

et al. 2020

Metals

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“…For instance, the AA8XXX alloy series is an interesting category of aluminum alloys which includes additions of iron and manganese close to the Al-Fe-Mn ternary eutectic [32]. This provides an excellent combination of strength and ductility at room temperature, and allows the mechanical strength to be maintained at elevated temperatures [32,33]. In particular, AA8006 is a well-known alloy in this series which is characterized by intermediate strength with high ductility, and contains approximately ~1.5 wt% and ~0.5 wt%, contents of iron and manganese, respectively [32].…”

Section: Accepted Manuscriptmentioning

confidence: 99%

“…The desirable tensile properties are attained through a uniform dispersion of fine stabilized secondary-phase dispersoids within a fine-grained Al-matrix [33]. This aluminum alloy is typically processed in the form of common household Al-foils in wide-spread use in containers, heat exchangers, air-conditioners, insulations, cable wrap and other technical applications [32,33]. However, general applications of these Al-based materials are restricted due to their low hardness, strength and wear resistance [31].…”

Section: Accepted Manuscriptmentioning

confidence: 99%

Accumulative fold-forging (AFF) as a novel severe plastic deformation process to fabricate a high strength ultra-fine grained layered aluminum alloy structure

Khodabakhshi

Gerlich

2018

Materials Characterization

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“…As ligas de alumínio da série 8XXX são caracterizadas por composições variadas, sendo as mais importantes: as denominadas 8006 (Al-Fe-Mn), 8011 (Al-Fe-Si) e 8018 (Al-Fe-Si-Cu) [13]. Estas ligas têm sido utilizadas com sucesso pelas indústrias de embalagem e microeletrônica, devido à sua alta ductilidade.…”

Section: Ligas De Alumíniounclassified

Proteção contra a corrosão das ligas de alumínio AA7075-T6 e AA8006-F utilizando bicamadas do tipo polianilina e camadas de cerato

Bisanha¹

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Paulo como parte dos requisitos para a obtenção do título de doutor em ciências. Área de concentração: Físico-Química Orientador: Prof. Dr. Artur de Jesus Motheo Exemplar revisado O exemplar original encontra-se em acervo reservado na Biblioteca do IQSC-USP São Carlos 2014 Dedicatória À minha família e aos meus estimados amigos, que depositaram em mim todo apoio e confiança durante o desenvolvimento do trabalho de doutorado. Agradecimentos A Deus, em primeiro lugar e por tudo; Ao Prof. Artur de Jesus Motheo pela orientação, amizade e pela confiança; À Profa. Dra. Sandra Regina de Moraes pela co-orientação desde a iniciação científica, pela a amizade conquistada e pelos vários conselhos; Aos meus pais Ézio e Maria José, meus irmãos Alexandre e Renata, meu sobrinho João Victor, meu primo João Carlos e minha tia Ruth pelo apoio e carinho; À Aninha e a Dai pela grande amizade, por terem se tornado minha família em São Carlos, sendo estudando, fazendo almoços, lendo e apontando sugestões para tese ou indo a um barzinho para filosofar sobre o futuro e a vida; À Profa. Dra. Eny Maria Vieira e a Profa. Dra. Maria Teresa do Prado Gambardella (Teca) por tornar a universidade um ambiente mais acolhedor; Aos meus amigos desde a graduação (turma 2004): Adriano (Gabirú), Denis (Furo), Alexandre (Preto), André (Miguel), Gustavo (Troço), Marina (Má), Mariana (Mari), Tatiane (Tati), Luiza, Rafa, Ná, Fran, Suellen, Kelly, Diana, Viet e Vitão. Que nossa amizade perdure por muitos e muitos anos e que possamos sempre nos reencontros vivenciar e relembrar diversas histórias; Aos amigos de São

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Microscopic study regarding the microstructure evolution of the 8006 alloy in the plastic deformation process

Cited by 35 publications

References 0 publications

Effects of Homogenization Conditions on the Microstructure Evolution of Aluminium Alloy EN AW 8006

Effects of Homogenization Conditions on the Microstructure Evolution of Aluminium Alloy EN AW 8006

Accumulative fold-forging (AFF) as a novel severe plastic deformation process to fabricate a high strength ultra-fine grained layered aluminum alloy structure

Proteção contra a corrosão das ligas de alumínio AA7075-T6 e AA8006-F utilizando bicamadas do tipo polianilina e camadas de cerato

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