Assessment of the Corrosion Behavior of Friction-Stir-Welded Dissimilar Aluminum Alloys

Alfattani, Rami; Yunus, Muhammad; Mohamed, Ahmed F.; Alamro, Turki; Hassan, Md. Salleh

doi:10.3390/ma15010260

Cited by 15 publications

(8 citation statements)

References 31 publications

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“…The findings of the microstructural evaluation of the corroded surfaces are in line with the findings of Santhosh N et al, who have reported that the formation of the oxide films on the aluminium suface inhibits further corrosion due to the passivation of the surface layer towards the catalytic reactions [16]. Further, the works of Ramesha K et al, on the corrosion of the friction stir weld surfaces have reiterated the fact that the secondary processing operations brings about microcoring and segreggation that inibits the subgranular pitting reaction and thereby reduces the rate of corrosion [17]. Rami Alfattani et al, have further studied the corrosion behaviour of the friction stir weld specimens and have revealed that the microstructural refinement at the weld zone exhibits better corrosion resistance than the base metal, due to the zonal refinement and better bonding between the atoms leading to the reduction in the crevices and imperfections, thereby reducing the corrosion at the interface [18].…”

Section: (1)supporting

confidence: 76%

Corrosion Characterization of Friction Stir Weld Dissimilar Aluminium Alloy Joints

Ramesha

Santhosh²,

Naresh³

2022

jmmf

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The course of contact mix welding is quick acquiring conspicuousness in aviation, marine and car industry because of its benefits as far as mechanical strength, effect and hardness characteristics. There is as yet a requirement for sure fire consideration from the exploration local area to erosion in grating mix welding zones, hence the work introduced here centres around the consumption portrayal of the grinding mix weld divergent aluminium composite. This study looks into friction stir welding under various parametric settings and shows how corrosion happens in a sodium chloride electrolytic media under potentio-dynamic conditions. The friction stir weld joints of dissimilar alloys aluminium are constructed using three sets of parameters. Straight cylinder, taper cylinder, and straight triangular tool profiles; tool rotational speeds of 800, 1000, and 1200 rpm; tool feed rates of 100, 120, and 140 mm/min; and tool offsets of 0.5, 0 mm, and -1.5 mm. The corrosion current (Icorr) reduces as tool rotating speed increases up to 1200 rpm, after which it slightly increases due to the creation of ridges all around the periphery of the friction stir weld area.

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Section: (1)supporting

confidence: 76%

Corrosion Characterization of Friction Stir Weld Dissimilar Aluminium Alloy Joints

Ramesha

Santhosh²,

Naresh³

2022

jmmf

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“…They also found that galvanic coupling caused high corrosion density at the nugget zone. Out of all samples, less corrosion resistance was obtained for the sample welded at high rotation speed due to the formation of defects and insufficient material mixing [30][31][32].…”

Section: Open Circuit Potential (Ocp) Testmentioning

confidence: 99%

Microstructure, mechanical and electrochemical studies of dissimilar friction stir welded aluminium alloys

Padmavathi

Naik²

2023

Eng. Res. Express

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In the present investigation, the influence of tool rotational speed (900, 1100, 1300, and 1500 rpm) on microstructure, mechanical characteristics, and corrosion behavior of friction stir welding (FSW) of dissimilar Al5083-6061 alloys was studied. Optical and scanning electron microscopes were used to study the microstructural features. The grain size measured at the stir zone (SZ) decreased considerably in contrast with the base materials (BM) but increased with tool rotational speed. The mixing degrees of two materials at the SZ are enhanced by increasing rotational speeds. The mechanical properties, such as hardness and tensile properties, were studied using Vicker's hardness tester and universal testing machine. The hardness of the weld joints is inferior to that of the base metal, and uniform hardness distribution and the highest average hardness in SZ were obtained at 1100 rpm. The higher strength and elongation of 202 MPa and 5.2 %, respectively, were achieved at 1100 rpm, with joint efficiency of 65 %, due to optimum heat input, and the lowest tensile strength and elongation of 156 MPa and 3.2%, respectively, were obtained at 1300 rpm with a joint efficiency of 50 % due to excess heat input. It is curious to note that an increase in tensile elongation accompanies the enhancement of weld strength. The fracture occurred at the retreating side of the heat-affected zone as it is the weakest zone in the FSWed joint. Different corrosion tests, such as immersion, open circuit potential, and Tafel polarization tests, were carried out using an electrochemical workstation. The corrosion findings showed that the corrosion resistance of the samples increased after the welding, and the highest corrosion resistance was obtained at a rotational speed of 1100 rpm.

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“…Therefore, numerous solutions have been proposed to reduce fuel consumption and minimize the damage to the environment [2,3]. These solutions include reducing the weight of vehicles and promoting the use of lightweight alloys [4]. Magnesium (Mg), which is a lightweight metal, has drawn attention due to its property of being the lightest structural metal [5,6].…”

Section: Introductionmentioning

confidence: 99%

Microstructural and Mechanical Behavior Investigations of Nb-Reinforced Mg–Sn–Al–Zn–Mn Matrix Magnesium Composites

Erçetin

Özgün

Aslantaş

et al. 2023

Metals

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This research focuses on the fabrication and characterization of TAZ532-xNb composites, employing high-purity, micron-sized powders of Mg, Sn, Al, Zn, Mn, and Nb as the raw materials. These powders were subjected to a paraffin coating process aimed at mitigating oxidation. The formation of composites was achieved via hot pressing and was followed by surface preparation and analysis using scanning electron microscopy (SEM) and energy-dispersive spectroscopy (EDS). An X-ray diffraction (XRD) study was conducted to identify the microstructural phases. Quantitative assessments including the theoretical density, actual density, and relative density were computed, and their fluctuations in relation to the increasing Nb reinforcement ratio were scrutinized. Furthermore, the mechanical attributes of the composites, such as hardness and tensile strength, were assessed via experimental procedures. The absence of oxygen-related peaks in the XRD patterns endorsed the successful execution of the paraffin coating technique and protective gas atmosphere during sintering. The detection of α-Mg, Mg2Sn, MgZn, Mg17Al12, and Nb phases within the Nb-reinforced composite patterns authenticated the formation of the intended phases. Notably, the relative density values of the composites surpassed 95%, indicating efficient sintering. SEM results disclosed a densely packed microstructure, with Nb reinforcement particles evenly distributed along the grain boundaries, devoid of particle clustering or significant grain growth. These composites manifested exceptional wetting characteristics, which can be attributed to the employment of Mg alloy as the matrix material. EDS data confirmed the proportions of Nb within the composites, aligning with the quantities incorporated during fabrication. The composites showcased an increase in microhardness values with the escalating Nb reinforcement ratio, credited to the harder constitution of Nb particles in comparison to the matrix alloy. Concurrently, tensile strength showed a significant improvement with the increment in Nb reinforcement, while elongation values peaked at a specific Nb reinforcement level. The positive evolution of tensile strength properties was ascribed to the escalated Nb reinforcement ratio, grain size, and consequent higher sample densities.

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Assessment of the Corrosion Behavior of Friction-Stir-Welded Dissimilar Aluminum Alloys

Cited by 15 publications

References 31 publications

Corrosion Characterization of Friction Stir Weld Dissimilar Aluminium Alloy Joints

Corrosion Characterization of Friction Stir Weld Dissimilar Aluminium Alloy Joints

Microstructure, mechanical and electrochemical studies of dissimilar friction stir welded aluminium alloys

Microstructural and Mechanical Behavior Investigations of Nb-Reinforced Mg–Sn–Al–Zn–Mn Matrix Magnesium Composites

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