Effects of Microstructural Modification Using Friction Stir Processing on Fatigue Strength of Butt-Welded Joints for High-Strength Steels

Yamamoto, Hajime; Ito, Kazuhiro

doi:10.4236/msa.2018.97045

Cited by 7 publications

(5 citation statements)

References 25 publications

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“…Additionally, the fatigue strength was found to increase with a decrease in the microstructural grain size. Similar results were in consistent with those reported in the literature [21]. FSP was employed on the TIG welded AA6061 joint with the aim of increasing the fatigue life of the joint [22].…”

Section: Introductionsupporting

confidence: 91%

Material positioning influence towards fatigue strength of the friction stir processed AA8011/AA6082 joints

Msomi

Mabuwa

2020

Preprint

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The investigation on the fatigue behaviour of the processed friction stir welded AA8011/AA6082 dissimilar joint is reported in this work. The single-pass friction stir processing technique was applied on the friction stir welded AA8011/AA6082 and AA6082/AA8011 dissimilar joints. The friction stir processing was conducted under normal conditions (room temperature). The samples were prepared for different analysis using the waterjet cutter technology. The tests conducted include tensile, microstructural analysis, microhardness, fatigue and fracture surface morphology. The microstructural analysis revealed a correlation between material positioning and grain sizes. There was a notable decrease in grain size when AA6082 was positioned on the advancing side during processing. The tensile properties of the joint processed with AA6082/

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Section: Introductionsupporting

confidence: 91%

Material positioning influence towards fatigue strength of the friction stir processed AA8011/AA6082 joints

Msomi

Mabuwa

2020

Preprint

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“…It was also recommended that slow FSW speed is best suited for improved fatigue performance due to the development of a highly refined, defect-free microstructure in the welded zone [ 47 ]. Fatigue strength of butt welded joints after FSP was investigated by Yamamoto and Ito [ 48 ] on two high-strength steels. Double-sided FSP was performed using a WC-6% Co tool with a rotational speed of 400 rpm and travel speed of 140 mm/min.…”

Section: Effect Of Fsp On Fracture Toughness and Fatigue Behaviormentioning

confidence: 99%

Friction Stir Processing Influence on Microstructure, Mechanical, and Corrosion Behavior of Steels: A Review

et al. 2021

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Friction stir processing (FSP) technology has received reasonable attention in the past two decades to process a wide range of materials such as aluminum, magnesium, titanium, steel, and superalloys. Due to its thermomechanical processing nature, FSP is used to alter grain structure and enhance mechanical and corrosion behavior in a wide range of steels. The refinement in grains and phase transformations achieved in steel after FSP affects hardness, tensile properties, fracture toughness, fatigue crack propagation rate, wear resistance, and corrosion resistance. A number of review papers are available on friction stir welding (FSW) or FSP of nonferrous alloys. In this article, a comprehensive literature review on the FSP/FSW of different types of steels is summarized. Specifically, the influence of friction stir processing parameters such as advancing speed, rotational speed, tool material, etc., on steels’ performance is discussed along with assessment methodologies and recommendations.

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“…By increasing softening the heat-affected zone (HAZ) of dissimilar welded joints of high-strength and ultra-high-strength steel when using overmatched filler wire can lead to the beneficial outcomes of lighter weight and increase of strength in the HAZ [5], [7], [8]. The gas metal arc welding process (GMAW) is an arc welding process that is suitable for welding high and ultra-high-strength steels [9][10][11][12][13]. Welding of dissimilar high-strength and ultra-high-strength steel is a difficult task that depends mainly on the heat source parameter for it to improve mechanical properties in the HAZ [14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Thermo mechanical and microstructural constituents of dissimilar S700MC-S960QC high-strength steel welded joints using overmatched filler wire

Bayock

Kibong

Timba

et al. 2022

IJET

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In this study, a mechanical and microstructural constituent of welded joints of dissimilar high-strength and ultra-high-strength steels (S700MC/S960QC) using overmatched filler wire was evaluated. Three different heat inputs (18 kJ/cm, 8 kJ/cm, and 10 kJ/cm) and overmatched filler wire were applied using the GMAW process. Micro-hardness measurement was conducted using Vickers hardness test, tensile test, and microstructural constituents by scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDS) were performed in this analysis. A dissimilar welded sample with a cooling time of 51s (18 kJ/cm) showed a substantial hardness reduction in the fine grain heat-affected zone (HAZ) of the S700MC steel side, which was between 220-240 HV5. The cause could be the increase of heat input but also the use of overmatched filler wire, which can be the result of an increase of ferrite to austenite formation in the HAZ. SEM/EDS results confirmed the increase of carbide clusters, and tempered Martensite in the CGHAZ of the S960QC side, and ferrite-bainite on the S700MC side. An increase in the presence of high carbide content and the formation of Ni, Mo, and Mn were observed on the S960QC side. The increase of carbide formation in the CGHAZ of both sides reduced the hardness and strength of the welded joints. The tensile test confirms the softening observed in the FGHAZ of the S700MC side, which caused the joint fracture on this side during the test.

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Effects of Microstructural Modification Using Friction Stir Processing on Fatigue Strength of Butt-Welded Joints for High-Strength Steels

Cited by 7 publications

References 25 publications

Material positioning influence towards fatigue strength of the friction stir processed AA8011/AA6082 joints

Material positioning influence towards fatigue strength of the friction stir processed AA8011/AA6082 joints

Friction Stir Processing Influence on Microstructure, Mechanical, and Corrosion Behavior of Steels: A Review

Thermo mechanical and microstructural constituents of dissimilar S700MC-S960QC high-strength steel welded joints using overmatched filler wire

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