Effect of Secondary Processing and Nanoscale Reinforcement on the Mechanical Properties of Al-TiC Composites

Senthilkumar, V.; Balaji, A.; Ahamed, Hafeez

doi:10.4236/jmmce.2011.1014102

Cited by 10 publications

(8 citation statements)

References 22 publications

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“…Experimental density was determined by the Archimedes method [18] and the theoretical density was calculated from the simple rule of mixtures. The amount of relative density increases with particle size reduction of TiC content.…”

Section: Densitymentioning

confidence: 99%

The Effects of TiC Reinforcement on Thermal, Electrical and Dry Sliding Wear Behaviour of Aluminium Matrix Nanocomposites

al.,¹

2018

IJMPERD

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The present work is to investigate the thermal, electrical & dry sliding wear behaviour of aaluminium matrix composite reinforced with dissimilar particle size (≤ 200 nm and 2 µm) of titanium carbide particles. An aluminium matrix composite with 0, 5, 10 and 15 vol.%TiC reinforcement was prepared by using powder metallurgy. A pin-on-disc apparatus was broadly used to investigate the wear behavior of the Al/TiCnano composites. Wear test was carried out for normal load of 5 N,10 N, 15 N& 20N at constant sliding velocity of 2.61 m/s at room temperature. The variations of the coefficient of friction (COF) & specific wear rate (SWR) with the varying sliding distances (1000 m, 1200 m, 1400 m and 1600 m) for variable load were plotted and analyzed. Find out the thermal property of Al-TiC composite by using Thermogravimetry (TG) / Differential scanning calorometry (DSC). To study the dominant sliding, wear mechanism was analyzed for various test condition, while the worn surface was investigated by using scanning electron microscopy (SEM) and the respective polynomial & power law model was developed using curve fitting technique. Further, it was found that the SWR is to increase with the load & sliding distances. Hardness & electrical conductivity of composites have been varied based on particle size variation of TiC.

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Section: Densitymentioning

confidence: 99%

The Effects of TiC Reinforcement on Thermal, Electrical and Dry Sliding Wear Behaviour of Aluminium Matrix Nanocomposites

al.,¹

2018

IJMPERD

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“…The density of green compacts, as sintered specimens, was determined using the Archimedes principle [10][11]. Mustard oil was used as the immersion fluid [12][13].…”

Section: Compacting and Sinteringmentioning

confidence: 99%

Experimental Analysis of Al–TiC Sintered Nanocomposite on EDM Process Parameters Using ANOVA

Sivaraj¹,

Selvakumar²

2015

Materials and Manufacturing Processes

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“…The strength of the composites depends primarily on the amount, arrangement, size or/and shape, and type of reinforcement in the matrix phase [22,23]. For instance, glass particles are used as the reinforcement in MMCs; there are some challenges such as poor bonding between the glass particles and matrix [24][25][26][27]. The employment of a suitable fabrication method of MMCs reinforced with glass particulates can solve some of these challenges.…”

Section: Introductionmentioning

confidence: 99%

Fabrication and Characterization of Aluminum (Al‐6061) Matrix Composite Reinforced with Waste Glass for Engineering Applications

Wubieneh

Tegegne

2022

Journal of Nanomaterials

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Aluminum composites with various reinforcement materials are widely applicable in advanced engineering due to their better strength to weight ratio, better stiffness, and high thermal conductivity as well as excellent wear and corrosion properties. This stimulates curiosity to study aluminum metal matrix composite reinforced with waste glass to improve its mechanical and physical properties. The composite specimens were prepared using stir-casting rout by varying weight percentage of reinforcing waste glass powder from 0% to 30%. The fabricated composite samples were characterized using universal testing machine, FTIR, DSC, TGA, and optical microscope. The results revealed that as the waste glass particle content increased in the metal matrix, there was a significant enhancement of the mechanical properties like hardness and tensile strength as compared to the pristine sample. The microstructural properties analyzed using optical microscope show good bonding between the reinforcements and the pristine materials in the composite that indicates the glass particulates are uniformly distributed in the Al-6061 matrix. All in all, the effect of waste glass powder in aluminum metal matrix composite was clearly observed and it enhances the mechanical, physical, and thermal properties of the newly fabricated aluminum-based composite materials.

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Effect of Secondary Processing and Nanoscale Reinforcement on the Mechanical Properties of Al-TiC Composites

Cited by 10 publications

References 22 publications

The Effects of TiC Reinforcement on Thermal, Electrical and Dry Sliding Wear Behaviour of Aluminium Matrix Nanocomposites

The Effects of TiC Reinforcement on Thermal, Electrical and Dry Sliding Wear Behaviour of Aluminium Matrix Nanocomposites

Experimental Analysis of Al–TiC Sintered Nanocomposite on EDM Process Parameters Using ANOVA

Fabrication and Characterization of Aluminum (Al‐6061) Matrix Composite Reinforced with Waste Glass for Engineering Applications

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