Microstructural evolution and mechanical characterizations of AL-TiC matrix composites produced via friction stir welding

Abegunde, Olayinka Oluwatosin; Akinlabi, Esther Titilayo; Madyira, Daniel M.

doi:10.17222/mit.2016.033

Cited by 6 publications

(3 citation statements)

References 16 publications

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“…Another work also showed that aluminum 1050‐titanium‐carbide in situ composites resulted in better metallurgical and mechanical properties . Titanium carbide addition has also be proven to improve the tensile strength of the processed samples . Numerous studies on the reinforcement with powder particles with friction stir process have been successfully carried out, achieving homogenous distribution of the powder particles with improved properties has been achieved and recorded .…”

Section: Introductionmentioning

confidence: 98%

Microstructural, mechanical and corrosion properties of aluminium MIG welds reinforced with copper powder

Abima

Akinlabi

et al. 2019

Int J Adv Manuf Technol

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This paper reports on the corrosion behavior of aluminum metal inert gas (MIG) welds reinforced with copper powder particles. Pure aluminum, AA1100 sheets, machined to a 45° v‐grooved were used for this experiment. Copper powder particle reinforced samples and unreinforced samples were investigated. The corrosion behavior of the samples were investigated in 3.5 % sodium chloride (NaCl) solution, using the potentiodynamic polarization technique. The results revealed that the corrosion resistance for reinforced samples were higher than those for unreinforced samples. Hence the corrosion resistance of aluminum AA1100 welds can be improved by the addition of copper powder particle in the weld seam, and it is therefore recommended for typical industrial applications.

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Section: Introductionmentioning

confidence: 98%

Microstructural, mechanical and corrosion properties of aluminium MIG welds reinforced with copper powder

Abima

Akinlabi

et al. 2019

Int J Adv Manuf Technol

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“…Aluminium alloys have high corrosion resistance, high thermal conductivity, adequate strength characteristics, recyclability, ductility, strength and especially irregularity. Therefore, it has been generally utilised in numerous territories of industry such as aviation, structural development, marine ventures and especially in-car applications [1][2][3]. The need for the development of new advanced materials with superior mechanical and metallurgical properties that can serve effectively in the aggressive environment is on the rise.…”

Section: Introductionmentioning

confidence: 99%

Influence of Heat Treatment on the Corrosion Behaviour of Aluminium Silver Nano Particle/Calcium Carbonate Composite

et al. 2021

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Corrosion is one of the leading sources of material failure and deterioration in society. Scholars have proposed different techniques to mitigate corrosion. This research study explores and validates one of these techniques. An Aluminium metal matrix (AMC) was produced using the stir casting method with various weight percentages of AgNp and CaCO3 reinforcements. Heat treatment was performed on the samples to enhance the metallurgical and corrosion properties of the materials. The corrosion rate of the AMC samples was tested in different corrosive media (neutral and acidic) with different concentrations using the weight loss analysis technique for several days. It was observed that the corrosion rate of the AMC relies on the nature of the electrolyte and the percentage concentration of this electrolyte. The heat treatment improves the corrosion resistance of the AMC samples. In addition, an increase in the % weight composition of the reinforcement (AgNp + CaCO3) results in a reduction in the corrosion rate of the AMC in both corrosive media. The optimal %weight composition was found to be 4% for the hybrid reinforcement of AgNp + CaCO3 and 6% for the CaCO3 reinforcement in both the untreated and heat-treated samples.

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“…The aim of this study is to attain improved mechanical properties of 1100 Al by comparing the effect of various reinforcements on it, reinforcement particles offering the highest hardness, finest grain size, highest tensile strength and good corrosion resistance will be investigated. The reinforcement used in this study has been investigated by some studies to reveal their peculiar characterization (Abegunde, Akinlabi, and Madyira 2017;Ikumapayi, Akinlabi, and Majumdar 2018;Panwar and Chauhan 2018). No published literature compared the effect of the various reinforcements used in this study as far as the authors know.…”

Section: Introductionmentioning

confidence: 99%

Significantly Improved Mechanical Properties of 1100 Aluminium Alloy via Particle Reinforcement

Adetunla¹

2018

EJEST

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In this study, metal matrix composite is fabricated on 1100 Aluminium alloy by multi pass friction stir processing using different reinforcement particles namely Fly Ash, Palm Kernel Shell Ash, Ti62222 and 304 Stainless steel. Metal matrix composites with average grain size of 6.5 μm are achieved. The addition of reinforcements at the stir zone has enhanced the mechanical properties of the 1100 Al alloy, finer grain structure is also evident after three cumulative passes. Higher strength ranging from 268 to 454 MPa is achieved. Microhadrness of the developed metal matrix composites reinforced with various particles exhibits an improved average microhardness values that ranges from 75 to 95 HV. 304 stainless steel serves as the best reinforcement to be used, offering higher hardness values and good tensile strength of 454.18MPa. The sets of new alloys fabricated in this study can be considered for typical surface engineering applications

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Microstructural evolution and mechanical characterizations of AL-TiC matrix composites produced via friction stir welding

Cited by 6 publications

References 16 publications

Microstructural, mechanical and corrosion properties of aluminium MIG welds reinforced with copper powder

Microstructural, mechanical and corrosion properties of aluminium MIG welds reinforced with copper powder

Influence of Heat Treatment on the Corrosion Behaviour of Aluminium Silver Nano Particle/Calcium Carbonate Composite

Significantly Improved Mechanical Properties of 1100 Aluminium Alloy via Particle Reinforcement

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