Literature Survey on Porosity and Microporosity in Cast Irons Related to Expansion and Gas Entrapment Phenomena

Anjos, Vítor; Ribeiro, Carlos Silva; Dias, Fátima; Baumgart, Wolfgang; Cunha, J.B.M. da

doi:10.4028/www.scientific.net/kem.457.410

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“…Embora cada um destes defeitos seja originário de fenômenos distintos e com meios de controle diferentes, ambos ocorrem quando há uma pressão negativa dentro do meio fundido no interior do molde, quando os caminhos que levam ao preenchimento das cavidades já estão bloqueados pela solidificação do material ao seu entorno. Esta pressão negativa formada é decorrente da contração do líquido durante o resfriamento e durante a transformação da fase líquida para a fase sólida, movimentações na parede do molde durante a solidificação e, conforme já discutido, geometria do molde e características metalúrgicas da liga (ANJOS et al, 2010).…”

Section: Nucleação E Solidificaçãounclassified

Estudo da fundição em aluminetos de ferro.

Ramirez¹

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Iron aluminides are good candidates for applications at moderate to high temperatures (up to 500 °C) because they combine excellent oxidation resistance with good mechanical properties. However, these materials have low ductility at room temperature (less than 5% traction elongation), a characteristic correlated to environmental effects, which hinders their conformation process. Casting is a processing route traditionally applied to brittle alloys (eg, gray cast iron), it is necessary to know the thermochemical properties of the alloys to reduce the formation of defects attributed to the casting process, such as the formation of pores, scar and blows. In this work, three different alloys of intermetallic (Fe28Al, Fe28Al6Cr and Fe28Al6Cr1Ti) were investigated under the influence of different solidification conditions.For these three alloy compositions, grain size reduction by up to 60% was observed by the addition of Al-5Ti-1B as an inoculant to the molten metal. The alloys were produced under laboratory conditions (induction furnace with a maximum capacity of 2 kg and protection under Air flow), as well as industrial scale (induction furnace with capacity of 100 kg). The industrial scale process resulted in castings with a small number of defects, which is an indication of the ability to produce mechanical parts of these iron aluminides directly by the casting process. The X-ray tomography technique assisted in the measurement of linear contraction (~ 6%) and tendency to defect formation. In addition to the microstructural characterization of the alloys, this work includes a discussion about the reactivity of the molten metal and the refractory material coating the induction furnace. In this way, the obtained data allow to investigate the FeAl alloys castability by the use of induction furnace.

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Section: Nucleação E Solidificaçãounclassified

Estudo da fundição em aluminetos de ferro.

Ramirez¹

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Literature Survey on Porosity and Microporosity in Cast Irons Related to Expansion and Gas Entrapment Phenomena

Cited by 1 publication

References 2 publications

Estudo da fundição em aluminetos de ferro.

Estudo da fundição em aluminetos de ferro.

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