Numerical and Experimental Study of an Industrial Case for Grain Size Evolution in Bainitic Steel in Controlled Hot Forging and its Influence on Mechanical Performance

Ivaniski, Thiago Marques; Castro, P.J.; Rodrigues, Diego G.; Épp, Jérémy; Nunes, Rafael Menezes; Rocha, Alexandre da Silva

doi:10.1590/1980-5373-mr-2021-0598

Cited by 5 publications

(1 citation statement)

References 28 publications

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“…Meanwhile, a similar effect was confirmed by Zhang and Kannengiesser 34 for HSLA steel, where, above 1100°C, there was dissolution of niobium carbonitrides and AlN caused accelerated austenite grain growth. Ivaniski et al 35 studied grain size evolution in bainitic steel during hot forging, and associated the rapid grain growth at 1200°C with the dissolution of precipitates formed by micro-alloying elements such as Ti, N, and Al. However, carbide dissolution in the investigated steel is unlikely, since nanobainitic steels are considered carbide-free.…”

Section: Grain Growth Kineticsmentioning

confidence: 99%

Microstructure Prediction of 80MnSi8-6 Steel After Hot Deformation Based on Dynamic Recrystallization Kinetics and FEM Simulation

Zyguła,

Cichocki,

Kowalczyk

et al. 2024

JOM

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The microstructure evolution during hot deformation of 80MnSi8-6 nanobainitic steel was investigated through hot compression tests at deformation temperatures of 900–1250°C and strain rates of 0.1–20 s−1. The flow curves revealed strain-hardening behavior at the beginning of deformation followed by softening effects caused by microstructure evolution. A Johnson–Mehl–Avrami–Kolmogorov (JMAK) model for grain growth and dynamic recrystallization was developed, and the kinetics were determined. Critical and peak strains were identified, and coefficients for the microstructure evolution models were determined using linear regression. The analysis of S-curves revealed that decreasing the temperature delays the onset of recrystallization and that the strain rate significantly effects the recrystallization rate at lower temperatures. Constitutive modeling and determination of the Zener–Hollomon parameter allowed the determination of the influence of hot processing conditions on material behavior during deformation. Microstructure analysis showed that, at higher deformation temperatures, grain growth occurs simultaneously with grain refinement. Coefficients for the JMAK model were implemented in QForm software. Simulation results were compared with experimental measurements exhibited good arrangement, which confirms the accuracy of the JMAK model in predicting the microstructure evolution. This study demonstrated how microstructure evolution modeling and FEM simulations combined can be used to predict the grain size of 80MnSi8-6 steel after hot deformation.

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Section: Grain Growth Kineticsmentioning

confidence: 99%

Microstructure Prediction of 80MnSi8-6 Steel After Hot Deformation Based on Dynamic Recrystallization Kinetics and FEM Simulation

Zyguła,

Cichocki,

Kowalczyk

et al. 2024

JOM

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Integration of FEM and Process Map to Determine the Formability of a Continuous Cooling Bainitic Steel

Ivaniski,

de F. Silveira,

Epp

et al. 2023

Lecture Notes in Mechanical Engineering

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Correlation between roughness, film thickness, and friction coefficient with pitting wear resistance of spur gears

Dalcin,

de Menezes,

da Silva Rocha

et al. 2023

Int J Adv Manuf Technol

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The present investigation aims correlate the roughness, lm thickness and friction coe cient with pitting wear resistance along the rolling-sliding contact fatigue of forged and plasma nitrided gears. The hypothesis of this work is that the pitting wear resistance of forged gears can be greatly improved by pulsed plasma nitriding. Weibull's statistical analysis con rms that nitrided gears with 24 vol.% N 2 showed the lowest pitting wear rates among the investigated conditions, which was attributed to the best combination between surface hardness, fracture toughness, compound layer thickness, and phases on surface. The pitting wear intensi es with increasing roughness, but this same behavior was not observed between the wear evolution and the maximum shear stress eld in the sub-surface. Another interesting fact is that nitrided gears with 24 vol.% N 2 (best condition), have a greater lm thickness at the end of the rolling-sliding contact fatigue, which gives it greater protection, less friction and pitting wear.

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Numerical and Experimental Study of an Industrial Case for Grain Size Evolution in Bainitic Steel in Controlled Hot Forging and its Influence on Mechanical Performance

Cited by 5 publications

References 28 publications

Microstructure Prediction of 80MnSi8-6 Steel After Hot Deformation Based on Dynamic Recrystallization Kinetics and FEM Simulation

Microstructure Prediction of 80MnSi8-6 Steel After Hot Deformation Based on Dynamic Recrystallization Kinetics and FEM Simulation

Integration of FEM and Process Map to Determine the Formability of a Continuous Cooling Bainitic Steel

Correlation between roughness, film thickness, and friction coefficient with pitting wear resistance of spur gears

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