Tungsten Laser Alloying of A356 Al Alloy - Tribological Performance and Characterisation

Staia, M.H.; Sanchez, C.; Cruz, M. R.; Román, Alejandra Silvina; Lesage, Jacky; Mesmacque, G.; Dahotre, Narendra B.

doi:10.1179/026708401225005368

Cited by 3 publications

(1 citation statement)

References 16 publications

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“…It was observed that the strengthened A356 alloy possessed a dry sliding wear resistance preferred to the plain A356 alloy. In Staia et al [31], the laser alloying of sand cast Al alloy A356 together with tungsten employing a two-phase method of laser alloying was performed. The conclusion was that the laser treated surfaces offered a growth in wear confrontation between 40% as well as almost 110% when weighed against the wear confrontation of the untreated Al alloy, as well as the enhancement was comparative to the laser beam-substrate interaction time.…”

Section: Literature Review 21 Extant Literature Review Concerning A3mentioning

confidence: 99%

Taguchi Optimisation of Cast Geometries for A356/Organic Particulate Aluminium Alloy Composites Using a Two-Phase Casting Process

Nwafor

Oke

Ayanladun

2019

JASPE

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The A356 alloy is widely known to exhibit an extremely superior casting, machining, mechanical, and corrosion resistance properties. Despite these, it constitutes an environmental nuisance at its improper disposal for worn-out engine blocks. Also, organic reinforcements have the potentials to reduce the environmental impacts of composites. Consequently, there exits significant research potential to fuse A356 alloy with organic materials to obtain enhanced composite properties. In the area of aluminium matrix, as melting and solidifications of materials are done the accuracy of measurements is driven by the huge array of process parameters and the geometrical aspect of cast components is important. For these reasons, we attempt to solve the problem of optimising the geometry of casts in a complicated scenario with the use of the robust Taguchi's methods. To optimise the framework, the significant process parameters are identified and their effects studied in a route using Taguchi, Taguchi-Pareto and Taguchi–ABC methods. Parameters such as the volume of the cast, length, weight, density, height, width, breadth, weight loss and the total weight of organic materials infused into the melting process were studied for parametric changes, interactions and optimisation with L27 orthogonal array. The analysis of variance for the A356 alloy cast revealed that the density parameter of cast 1 had the highest and major significant effect on the casting process with a variance of 333573, followed by weight parameter of casts 1 and 2, total weight of organic material parameters and weight loss with the variance values of 0.007, 0.005, 0.001 and 0.004, respectively. The variance of other parameters was insignificant to the A356 alloy cast.

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Section: Literature Review 21 Extant Literature Review Concerning A3mentioning

confidence: 99%

Taguchi Optimisation of Cast Geometries for A356/Organic Particulate Aluminium Alloy Composites Using a Two-Phase Casting Process

Nwafor

Oke

Ayanladun

2019

JASPE

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Effect of laser alloying with CoNiCrW powder on the properties of the AlSi7Mg surface layer

Soboleva,

Davydova,

Makarov

et al. 2024

Int J Adv Manuf Technol

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Characterisations of low phosphorus electroless Ni and composite electroless Ni-P-SiC coatings on A356 aluminium alloy

Hashemi

Ashrafi

2017

Transactions of the IMF

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Tungsten Laser Alloying of A356 Al Alloy - Tribological Performance and Characterisation

Cited by 3 publications

References 16 publications

Taguchi Optimisation of Cast Geometries for A356/Organic Particulate Aluminium Alloy Composites Using a Two-Phase Casting Process

Taguchi Optimisation of Cast Geometries for A356/Organic Particulate Aluminium Alloy Composites Using a Two-Phase Casting Process

Effect of laser alloying with CoNiCrW powder on the properties of the AlSi7Mg surface layer

Characterisations of low phosphorus electroless Ni and composite electroless Ni-P-SiC coatings on A356 aluminium alloy

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