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Synthesis and properties analysis of char-reinforced Al–13.5Si–2.5Mg alloy composites

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Abstract

The re-evaluation of previous and existing methods in materials processing is becoming ever more critical because of processing and starting materials cost factors. A study on the synthesis and properties investigation of hypereutectic Al–13.5Si–2.5Mg alloy reinforced with carbon chars using coconut shell as the organic precursor has been carried out. The low-cost, double compaction solid-state technique was used. Reinforcing the hypereutectic alloy with coconut shell char particles (size:<140 μm) at 2 vol % and consolidating by reaction sintering at 600 °C in vacuum for 15 min, followed by near net-shape compaction at 250 MPa, increased the hardness of the alloy 6% while reducing its strength (UTS) by only 3%. The use of palm kernel shell char as the dispersed phase was found to yield identical results. At 2 vol % char, the mechanical properties, sintered density and dimensional changes were optimally found to be suitable for lightweight anti-friction electromechanical applications. Attempts to reinforce the alloy with 2 vol % coconut shell chars activated in CO2 reduced its strength in the range of 19 to 26% at different burn-off percentages. This is attributed to the higher amount of oxide products formed during the activation process. At 600 °C, formation of the brittle Al4C3 phase in the different sintered composites containing activated and unactivated chars was identified by X-ray studies. © 1998 Chapman & Hall

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Authors and Affiliations

  1. Department of Metallurgical and Materials Engineering, The University of Alabama, PO Box 870202, Tuscaloosa, AL, 35487, USA

    J. U. Ejiofor

  2. Department of Materials and Metallurgical Engineering, Enugu State University of Technology, PMB, 01660, Nigeria

    R. G. Reddy

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  1. J. U. Ejiofor
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  2. R. G. Reddy
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  3. B. A. Okorie
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Ejiofor, J.U., Reddy, R.G. & Okorie, B.A. Synthesis and properties analysis of char-reinforced Al–13.5Si–2.5Mg alloy composites. Journal of Materials Science 33, 1003–1013 (1998). https://doi.org/10.1023/A:1004320113625

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