Comparing fast inductive tempering and conventional tempering: Effects on microstructure and mechanical properties

Vieweg, Annika; Ressel, Gerald; Raninger, Peter; Prevedel, Petri; Marsoner, S.; Ebner, R.

doi:10.1051/metal/2018015

Cited by 9 publications

(4 citation statements)

References 18 publications

(23 reference statements)

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“…It is anticipated that the higher heating rates would reduce the austenite grain size, but this needs to be verified. The higher heating rates have been shown to reduce the size of the cementite precipitates observed during induction tempering [10]. With the smaller cementite precipitate size, it is anticipated that the cementite would dissolve more readily in the austenite during rapid heating and lead to lower Ms temperatures.…”

Section: Discussionmentioning

confidence: 99%

Effects of Rapid Induction Heating on Transformations in 0.6% C Steels

Cryderman

Garrett

Schlittenhart

2019

Heat Treat 2019: Proceedings From the 30th Heat Treating Society Conference and Exposition

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Rapid induction hardening of martensitic steel can attain the very high strength levels needed for light-weighting components subjected to high operating stresses. Specimens of martensitic 0.6% C steels were heat treated using a dilatometer to investigate the effects of heating rates of 5 to 500 °C/s to temperatures of 850 to 1050 °C on the transformation to austenite and subsequent transformation to martensite during quenching. Selected specimens were quenched after partial transformation to austenite to assess the initial cementite precipitate size formed in ferrite during heating. Other specimens were isothermally held at the austenitizing temperature to assess cementite dissolution rates. Higher heating rates increased the Ac1 and Ac3 temperatures, and lowered the Ms temperature. Alloy content and prior microstructure also influenced the transformation temperatures.

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Section: Discussionmentioning

confidence: 99%

Effects of Rapid Induction Heating on Transformations in 0.6% C Steels

Cryderman

Garrett

Schlittenhart

2019

Heat Treat 2019: Proceedings From the 30th Heat Treating Society Conference and Exposition

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“…Several studies demonstrated how microstructure and mechanical properties can be significantly modified by induction heat treatments applied to a wide range of iron-based materials and applications. Different research papers investigated the influence of operating parameters on the mechanical properties, with the focus on bulk materials [5][6][7], superficial aspects [8,9] and welded parts [10,11]. Guo et al [12] showed how the combination of the induction heat and surface peening treatments improved the yield strength without significantly impacting the ductility of pure iron.…”

Section: Introductionmentioning

confidence: 99%

Localized heat treatment to improve the formability of steel pipes for hydraulic applications: process design and mechanical characterization

Bruno

Canto²,

Luciani³

2021

Int J Adv Manuf Technol

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Section: Introductionmentioning

confidence: 99%

Localized Heat Treatment to Improve the Formability of Steel Pipes for Hydraulic Applications: Process Design and Mechanical Characterization

Bruno

Canto²,

Luciani³

2021

Preprint

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In the present work, authors have demonstrated how a localized induction heat treatment can be advantageously applied, controlled and mechanically characterized on a specific part – i.e. on steel hose fittings for hydraulic applications. More specifically, the study shows how this specific type of heat treatment facilitates the acquisition of significant localization effects on mechanical properties, and how such a treatment could act as a powerful tool for material optimization in diverse applications. The instrumented micro-indentation test was adopted as the investigation method for mechanical characterization and, due to the reduced amount of material required for the test, has the double advantage of retrieving potential spatial gradients of the mechanical properties without causing permanent damage to the entirety of analyzed parts. The measurement of both the Vickers hardness and plastic work required to make the indentation that would be necessary to quantify the strength and ductility capability of the parts’ material. In addition, a customized tensile test, based on the strains measurement obtained through an optical full-field method – i.e. Digital Image Correlation (DIC) – was developed with the aim of identifying and quantifying the correlation between the material properties attainable through a conventional tensile test and those measured by the instrumented micro-indentation test. Finally, it was demonstrated that the proposed customized tensile test, due to the localized heat treatment, is capable of retrieving potential spatial gradients of material properties.

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Comparing fast inductive tempering and conventional tempering: Effects on microstructure and mechanical properties

Cited by 9 publications

References 18 publications

Effects of Rapid Induction Heating on Transformations in 0.6% C Steels

Effects of Rapid Induction Heating on Transformations in 0.6% C Steels

Localized heat treatment to improve the formability of steel pipes for hydraulic applications: process design and mechanical characterization

Localized Heat Treatment to Improve the Formability of Steel Pipes for Hydraulic Applications: Process Design and Mechanical Characterization

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