Metal Oxide Nanoparticle-Based Coating as a Catalyzer for A-TIG Welding: Critical Raw Material Perspective

Baloš, Sebastian; Dramićanin, Miroslav D.; Janjatovic, Petar; Zabunov, Ivan; Klobčar, Damjan; Bušić, Matija; Grilli, Maria Luisa

doi:10.3390/met9050567

Cited by 12 publications

(14 citation statements)

References 23 publications

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“…In contrast, austenitic grains near the fusion line just under the surface remained unchanged, since the melt reaching this area already transferred part of its heat. These results are similar to ones presented in [30,37], where SiO 2 and TiO 2 nanoparticles were used as a basis for the coating. In A-TIG welding, where full penetration is achieved, grain coarsening under the weld metal is not possible, since in case of full penetration, there is no base metal.…”

Section: Discussionsupporting

confidence: 88%

“…This was in good agreement with microstructures in these zones, with a decreased hardness closely in [30,37], where SiO2 and TiO2 nanoparticles were used as a basis for the coating. In A-TIG welding,…”

Section: Discussionsupporting

confidence: 85%

“…The distance between the indentations was 0.5 mm. Indentation loading was 0.981 N (100 140 gf) on Wilson Tukon 1102 (Uzwil, Switzerland) device.141142 Microhardness measurement scheme[30].…”

mentioning

confidence: 99%

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Suppressing the Use of Critical Raw Materials in Joining of AISI 304 Stainless Steel Using Activated Tungsten Inert Gas Welding

Baloš

Dramićanin

Janjatovic

et al. 2019

Metals

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The aim of this study was to study the influence of TiO2 coating for its efficacy during the activated-tungsten inert gas (TIG) welding and to suppress the use of consumables that are rich in critical raw materials. Post-welding penetration depth, particle size distribution, microstructure, and microhardness of welded samples were assessed. Based on these results, it was found that there is no direct correlation between the weld metal surface area and the coating. The particle size in the coating, although, seemed to have played an important role, e.g., nanoparticles resulted in an increased penetration depth and depth/width (D/W) ratio as opposed to the submicron-sized particles. The most optimal welding condition resulted when a mixture of submicron-sized and nanometric-sized particles were used. It was demonstrated by the Zeta analyser results that the micron particles rub the nanoparticles due to mechanical friction resulting in smaller oxide particle formation in the coating. Finally, the presence of Marangoni convection in TIG and reversed Marangoni convection in the activated TIG (A-TIG) process were proven by means of the microstructure analysis and measurement, which were found to be positively correlated.

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Section: Discussionsupporting

confidence: 88%

Section: Discussionsupporting

confidence: 85%

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Suppressing the Use of Critical Raw Materials in Joining of AISI 304 Stainless Steel Using Activated Tungsten Inert Gas Welding

Baloš

Dramićanin

Janjatovic

et al. 2019

Metals

Self Cite

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“…Several studies have proven that nano-sized particles possess a high efficiency. This is because the high specific surface area of the nano-sized particles results in a faster thermal dissociation and decomposition during arc heating compared to that of the micron-sized particles [ 11 , 12 , 13 ]. The flux is applied on the surface by a brush or in the form of a spray prior to welding.…”

Section: Introductionmentioning

confidence: 99%

“…Instead of aiming at optimizing the flux to achieve the maximum penetration as in our previous study [ 12 ], in this study, the influence of nanoparticle-based fluxes on the mechanical properties of the weld was determined. The obtained mechanical properties were compared to the base metal and procedures for determining the weld quality, which may be the impeding factor of the wider acceptance of A-TIG technology in the industrial sector.…”

Section: Introductionmentioning

confidence: 99%

Influence of Metallic Oxide Nanoparticles on the Mechanical Properties of an A-TIG Welded 304L Austenitic Stainless Steel

et al. 2020

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Austenitic stainless steels represent a significant aerospace material, being used for various castings, structural components, landing gear components, afterburners, exhaust components, engine parts, and fuel tanks. The most common joining process is tungsten inert gas (TIG) welding, which possesses many advantages such as suitability to weld a wide range of ferrous and non-ferrous metals and alloys, providing high quality welds with good mechanical properties. Its major disadvantage is low productivity due to low penetration and welding speed. This can be overcome by introducing an activating flux before welding. The activating flux reverses the material flow of the weld pool, significantly increasing penetration. Therefore, shielding gas consumption is reduced and welding without a consumable is enabled. However, the consumable in conventional TIG also enables the conditioning of the mechanical properties of welds. In this study, Si and Ti metallic oxide nanoparticles were used to increase the weld penetration depth, while bend testing, tensile, and impact toughness were determined to evaluate the mechanical properties of welds. Furthermore, optical emission spectroscopy, light, and scanning electron microscope were used to determine the chemical compositions and microstructures of the welds. Chemical compositions and weld mechanical properties were similar in all specimens. The highest tensile and impact properties were obtained with the specimen welded with the flux containing 20% TiO2 and 80% SiO2 nanoparticles. Although lower than those of the base metal, they were well within the nominal base metal mechanical properties.

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Augmentation in depth of penetration of hastelloy C-22 by FATIG welding

Patel

Jani

Dm³

2022

Advances in Industrial and Manufacturing Engineering

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Metal Oxide Nanoparticle-Based Coating as a Catalyzer for A-TIG Welding: Critical Raw Material Perspective

Cited by 12 publications

References 23 publications

Suppressing the Use of Critical Raw Materials in Joining of AISI 304 Stainless Steel Using Activated Tungsten Inert Gas Welding

Suppressing the Use of Critical Raw Materials in Joining of AISI 304 Stainless Steel Using Activated Tungsten Inert Gas Welding

Influence of Metallic Oxide Nanoparticles on the Mechanical Properties of an A-TIG Welded 304L Austenitic Stainless Steel

Augmentation in depth of penetration of hastelloy C-22 by FATIG welding

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