Microstructural Evaluation of an Austempered Cast Iron Alloy

Pereira, Letyssia Niara De Godoi; Medeiros, Ronaldo Gomes de Castro; Freitas, Patrícia Guimarães Monteiro de; Silva, Camila Ferreira da; Silva, Leonardo Martins da; Leal, Ricardo Henriques

doi:10.1590/1980-5373-mr-2021-0256

Mat. Res.

2022

DOI: 10.1590/1980-5373-mr-2021-0256

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Microstructural Evaluation of an Austempered Cast Iron Alloy

Letyssia Niara De Godoi Pereira

Ronaldo Gomes de Castro Medeiros

Patrícia Guimarães Monteiro de Freitas

et al.

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%

Statistical Data-Driven Model for Hardness Prediction in Austempered Ductile Irons

Rodríguez-Rosales

Montes-González

Gómez-Casas

et al. 2022

Metals

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This research evaluates the effect of temperature and time austempering on microstructural characteristics and hardness of ductile iron, validating the results by means of a statistical method for hardness prediction. Ductile iron was subjected to austenitization at 950 °C for 120 min and then to austempering heat treatment in a salt bath at temperatures of 290, 320, 350 and 380 °C for 30, 60, 90 and 120 min. By increasing austempering temperature, a higher content of carbon-rich austenite was obtained, and the morphology of the thin acicular ferrite needles produced at 290 °C turned completely feathery at 350 and 380 °C. A thickening of acicular ferrite needles was also observed as austempering time increased. An inversely proportional behavior of hardness values was thus obtained, which was validated through data analysis, statistical tools and a regression model taking temperature and time austempering as input variables and hardness as the output variable, which achieved a correlation among variables of about 97%. The proposal of a mathematical model for the prediction of hardness in austempered ductile iron represents a numerical approximation which validates the experimental results at 95.20%.

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mentioning

confidence: 99%

Statistical Data-Driven Model for Hardness Prediction in Austempered Ductile Irons

Rodríguez-Rosales

Montes-González

Gómez-Casas

et al. 2022

Metals

View full text Add to dashboard Cite

show abstract

Optimization of Process Parameters in Abrasive Water Jet Machining of Austempered Ductile Iron (ADI)

Sharun¹,

Ronald²

2023

J. of Materi Eng and Perform

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The pressure treatment effect on the high‑strength austempered ductile iron structure

Lushchik,

Pokrovsky,

Rafalsky

et al. 2024

Litʹë metall.

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This paper presents the results of a study on the effect of pressure treatment (direct hot extrusion) on the structure of graphite inclusions and the metallic matrix of high‑strength austempered ductile iron. Comparative analysis of the cooling processes of the cast high‑strength ductile iron billet without deformation and after deformation was carried out using simulation modeling methods. The results of the study on the effect of hot deformation (up to 950–970 ℃) on the fracture structure and mechanical properties of austempered high‑strength ductile iron billets are presented.

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Microstructural Evaluation of an Austempered Cast Iron Alloy

Cited by 3 publications

References 12 publications

Statistical Data-Driven Model for Hardness Prediction in Austempered Ductile Irons

Statistical Data-Driven Model for Hardness Prediction in Austempered Ductile Irons

Optimization of Process Parameters in Abrasive Water Jet Machining of Austempered Ductile Iron (ADI)

The pressure treatment effect on the high‑strength austempered ductile iron structure

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