Thermomechanical Treatment of Steels - A Real Disruptive Technology Since Decades

Buchmayr, Bruno

doi:10.1002/srin.201700182

Cited by 16 publications

(9 citation statements)

References 132 publications

(140 reference statements)

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“…Refinement of the parent austenite grain (PAG) size has been proved as an effective strategy towards fine-grained steel grades [2,[6][7][8]. Among the different methods for grain refinement, the addition of microalloying elements [9] and complex thermo-mechanical treatments [10] are well-known routes to achieve a fine distribution of PAGs and improved mechanical properties in high strength steels.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Different Annealing Strategies on the Microstructure Development and Mechanical Response of Austempered Steels

Durán

Corallo

Ros-Yanez

et al. 2021

Metals

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This study focuses on the effect of non-conventional annealing strategies on the microstructure and related mechanical properties of austempered steels. Multistep thermo-cycling (TC) and ultrafast heating (UFH) annealing were carried out and compared with the outcome obtained from a conventionally annealed (CA) 0.3C-2Mn-1.5Si steel. After the annealing path, steel samples were fast cooled and isothermally treated at 400 °C employing the same parameters. It was found that TC and UFH strategies produce an equivalent level of microstructural refinement. Nevertheless, the obtained microstructure via TC has not led to an improvement in the mechanical properties in comparison with the CA steel. On the other hand, the steel grade produced via a combination of ultrafast heating annealing and austempering exhibits enhanced ductility without decreasing the strength level with respect to TC and CA, giving the best strength–ductility balance among the studied steels. The outstanding mechanical response exhibited by the UFH steel is related to the formation of heterogeneous distribution of ferrite, bainite and retained austenite in proportions 0.09–0.78–0.14. The microstructural formation after UFH is discussed in terms of chemical heterogeneities in the parent austenite.

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Section: Introductionmentioning

confidence: 99%

The Effect of Different Annealing Strategies on the Microstructure Development and Mechanical Response of Austempered Steels

Durán

Corallo

Ros-Yanez

et al. 2021

Metals

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“…The necessity to combine higher strength and better weldability with adequate toughness and ductility has resulted in the development of high-strength low alloy (HSLA) steels. 1,2 The carbon equivalent (CE) of HSLA steels is low, and their attributes are obtained through precise micro-alloy composition selection as well as optimization of thermomechanically controlled processing (TMCP) and accelerated cooling conditions. High-strength steels (HSS) and ultra-HSS (UHSS) are two subsets of HSLA steels that provide a cost-effective solution for material preservation.…”

Section: Introductionmentioning

confidence: 99%

Effect of welding mode and filler metal on microstructure and mechanical properties of dissimilar joints of S900MC thermomechanical steel to St52 carbon steel welded by gas tungsten arc welding

Nassiri

Abbasi

Ardestani

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part E:

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In this research, S900MC thermomechanical steel was jointed to St52 carbon steel through a gas tungsten arc welding process in the continuous and pulsed modes. The welding was performed in two different weld designs of V-groove and close square, with and without using an ER70S filler metal, respectively. Furthermore, the microstructure, hardness, and tensile strength of the joints were investigated. A bainitic microstructure was observed in the weld metal of the samples jointed in the continuous mode. While the weld metal microstructure of the pulsed joints was changed from a ferritic microstructure to a tempered martensitic microstructure by implementing filler metal in the V-groove weld design. In all joints, the heat-affected zone was narrower at the S900M side and had a fine bainitic microstructure. Among all joints, the maximum hardness of 389 HV was achieved for the weld metal of V-groove joints welded in the pulsed mode. At a normal strain rate, there was no considerable contrast between the yield and tensile strength of all joints, however, the elongation of the continuous joints was better than that of the pulsed joints. Increasing the strain rate led to the drastic improvement of yield and tensile strength of the joint welded in the continuous mode without using filler metal.

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“…The problem associated with this method is that the carbides or carbonitrides could reduce ductility by enabling surface transverse cracking during hot working if the process was not well-controlled [5]. Advanced solid grain refinement of steels is achieved through thermomechanical processing [6,7], which involves deforming and refining the supercooled austenite prior to transformation, and therefore the fine microstructure is obtained at room temperature. This thermomechanical processing, however, is not obviously suitable for cast steels.…”

Section: Introductionmentioning

confidence: 99%

Roles of Lanthanum and Cerium in Grain Refinement of Steels during Solidification

Zhang

Ren

2018

Metals

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Refinement of as-cast structures is one of the most effective approaches to improve mechanical properties, formability, and surface quality of steel castings and ingots. In the past few decades, addition of rare earths (REs), lanthanum and cerium in particular, has been considered as a practical and effective method to refine the as-cast steels. However, previous reports contained inconsistent, sometime even contradictory, results. This review summaries the major published results on investigation of the roles of lanthanum or/and cerium in various steels, provides reviews on the similarity and difference of previous studies, and clarifies the inconsistent results. The proposed mechanisms of grain refinement by the addition of lanthanum or/and cerium are also reviewed. It is concluded that the grain refinement of steels by RE additions is attributed to either heterogeneous nucleation on the in-situ formed RE inclusions, a solute effect, or the combined effect of both. The models/theories for evaluation of heterogeneous nucleation potency and for solute effect on grain refinement of cast metals are also briefly summarized.

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Thermomechanical Treatment of Steels - A Real Disruptive Technology Since Decades

Cited by 16 publications

References 132 publications

The Effect of Different Annealing Strategies on the Microstructure Development and Mechanical Response of Austempered Steels

The Effect of Different Annealing Strategies on the Microstructure Development and Mechanical Response of Austempered Steels

Effect of welding mode and filler metal on microstructure and mechanical properties of dissimilar joints of S900MC thermomechanical steel to St52 carbon steel welded by gas tungsten arc welding

Roles of Lanthanum and Cerium in Grain Refinement of Steels during Solidification

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