2022
DOI: 10.1590/1980-5373-mr-2021-0256
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Microstructural Evaluation of an Austempered Cast Iron Alloy

Abstract: ADI are the result of graphite nodules and ausferrite microstructure (acicular ferrite + retained austenite). Over the past few years, ADI has become an important material for engineering due to its excellent mechanical properties (outstanding ductility, high mechanical strength and good toughness) and low cost. It is known the discussion of process variables such as austempering time and temperature are extremely important for the microstructural and hardness study of these materials. Thus, in the present wor… Show more

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“…Nevertheless, carbon diffusion is limited due to the low temperature resulting in an ADI with high hardness and mechanical strength but weak ductility. Meanwhile, at higher temperatures, α ac needle nucleation decreases but carbon diffusion is favored [9,18], leading to an ADI with high ductility and poor mechanical strength [19,20].…”
mentioning
confidence: 99%
“…Nevertheless, carbon diffusion is limited due to the low temperature resulting in an ADI with high hardness and mechanical strength but weak ductility. Meanwhile, at higher temperatures, α ac needle nucleation decreases but carbon diffusion is favored [9,18], leading to an ADI with high ductility and poor mechanical strength [19,20].…”
mentioning
confidence: 99%