Microstructural Development in a TRIP-780 Steel Joined by Friction Stir Welding (FSW): Quantitative Evaluations and Comparisons with EBSD Predictions

Medina, Gladys Perez; Ferreira, H. Lopez; Zambrano‐Robledo, Patricia del Carmen; Pérez, A. F. Miranda; Valdes, Felipe Arturo Reyes

doi:10.1590/0104-9224/si2102.04

Cited by 13 publications

(4 citation statements)

References 19 publications

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“…Like induction seam welding, friction stir welding (FSW) is a solid-state welding process as well. Medina et al [31] conducted FSW trials on a TRIP780 (ferrite-bainite-retained austenite BM) alloy and characterized the weld microstructure to show a predominantly martensitic stir zone (SZ) and a HAZ which nearly matched the BM microstructure. They also found an increase in retained austenite content within the SZ and HAZ when compared to the BM.…”

Section: Welding Of Trip Steelsmentioning

confidence: 99%

Induction Weld Seam Characterization of Continuously Roll Formed TRIP690 Tubes

Bardelcik

Ananthapillai

2020

Metals

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The weld seam characteristics of continuously roll formed and induction seam welded TRIP690 tubes were examined in this work. These tube are subsequently used in automotive hydroforming applications, where the weld seam characteristics are critical. The induction seam welds are created through a solid-state welding process and it was shown that by increasing the induction frequency by 26%, the weld seam width within the heat affected zone (HAZ) reduced due to a plateau in the hardness distribution which was a result of a delay in the transformation of martensite. 2D hardness distribution contours were also created to show that some of the weld conditions examined in this work resulted in a strong asymmetric hardness distribution throughout the weld, which may be undesirable from a performance perspective. An increase in the pressure roll force was also examined and revealed that a wider total weld seam width was produced likely due to an increase in temperature which resulted in more austenitization of the sheet edge prior to welding. The ring hoop tension test (RHTT) was applied to the tube sections created in this work. A Tensile and Notch style ring specimen were tested and revealed excellent performance for these welds due to high peak loads (~17.2 kN) for the Notch specimens (force deformation within weld) and lower peak loads (~15.2 kN) for the Tensile specimens for which fracture occurred in the base metal.

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Section: Welding Of Trip Steelsmentioning

confidence: 99%

Induction Weld Seam Characterization of Continuously Roll Formed TRIP690 Tubes

Bardelcik

Ananthapillai

2020

Metals

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“…This unique microstructure is usually produced using a quenching and partitioning heat treatment process. The volume fraction of 15.4% RA was calculated using X-Ray diffraction according to the methodology of [11]. The carbon equivalent of 0.68 was calculated using the Yurioka et al [12] formula.…”

Section: Methodsmentioning

confidence: 99%

Hot-forming of a 980 MPa third generation advanced high strength steel

Midawi

Tolton

George

et al. 2023

IOP Conf. Ser.: Mater. Sci. Eng.

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This paper considers the effect of processing route on the final microstructure hardness and tensile behavior of a 980 MPa third generation advanced high strength steel (3G-AHSS). Of particular interest is the use of a hot stamping thermal schedule that mimics a quench and partition (Q&P) heat treatment process normally used to produce Q&P grade steel sheet. For comparison purposes, samples were also produced using a quench and temper (Q&T) processing history. The experiments were performed using a Gleeble 3500 thermo-mechanical simulator system. Large coupons were produced using both processing routes from which microstructure, hardness, and tensile samples were extracted. Mechanical properties results were compared with the as-received material. Both processing routes resulted in strength levels that were close to that of the as-received material; however, the total elongation of the Q&P processed samples was 52% higher than that of the Q&T processed material.

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“…This is due to their preferential difference on the corroded area during sample surface microstructural revelation. Nital is intended to attack the grain boundaries of the ferrite microstructure on iron or steel materials, while picral has the primary function to attack the carbide phases, causing the visual appearance of the carbide to look more contrasting [19]. For the FeNi samples, even though nital and picral can reveal the presence of ferrite grains (Fig.…”

Section: Microstructure Analysismentioning

confidence: 99%

“…The use of color etching in multi-phase alloys can facilitate the identification of phases in an alloy [19][20][21][22]. Color etching becomes a choice because it can display different visualizations through contrasting colors in each phase formed.…”

Section: Microstructure Analysismentioning

confidence: 99%

Identification of Bainite in a Multi-Phase Microstructure of an Austempered Steel Alloy: A Metallography Approach

Hasbi

Wida'atullah²,

Citrawati

et al. 2021

jsmi

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IDENTIFICATION OF BAINITE IN A MULTI-PHASE MICROSTRUCTURE OF AN AUSTEMPERED STEEL ALLOY: A METALLOGRAPHY APPROACH. Structural characterization of a multi-phase steel has become an exciting issue in various studies to date. This relates to the difficulty in distinguishing phases with similar morphology, i.e. bainite and martensite, through chemical etching. This study discusses a method to observe bainite phase through a metallographic approach on FeNi steel using color etching. Variations in the use of etching in this research include 2% nital, 4% picral, and 15% sodium metabisulphite (SMB). First, the samples were austenized then austempered at either 400 °C or 500 °C, for 60 min followed by quenching in either water or brine solution. Based on optical microscope observations, SMB color etching provides more explicit information on the visualization of bainite and martensite phases because they have different color appearances. The bainite phase is shown in bluish color, while the martensite phase is shown in brownish color. Furthermore, the influence of variation in austempering temperature and quench media on microstructure morphology was also discussed. In addition, the calculation of the lattice parameters of the X-Ray Diffraction (XRD) pattern was also carried out in this study to identify the crystal structure formed.

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Microstructural Development in a TRIP-780 Steel Joined by Friction Stir Welding (FSW): Quantitative Evaluations and Comparisons with EBSD Predictions

Cited by 13 publications

References 19 publications

Induction Weld Seam Characterization of Continuously Roll Formed TRIP690 Tubes

Induction Weld Seam Characterization of Continuously Roll Formed TRIP690 Tubes

Hot-forming of a 980 MPa third generation advanced high strength steel

Identification of Bainite in a Multi-Phase Microstructure of an Austempered Steel Alloy: A Metallography Approach

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