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The fabrication of graphene-reinforced Al-based nanocomposites using high-pressure torsion

Authors: Huang, Y., Bazarnik, P., Wan, D., Luo, D., Pereira, P.H.R., Lewandowska, M., Yao, J., Hayden, B.E., Langdon, T.G.

Journal: Acta Materialia

Publication Date: 01/02/2019

Volume: 164

Pages: 499-511

ISSN: 1359-6454

DOI: 10.1016/j.actamat.2018.10.060

Abstract:

Metal matrix nanocomposites were fabricated by high-pressure torsion (HPT) using 5% graphene nanoplates as a reinforcement contained within an Al matrix. Powders were mixed and compacted at room temperature and then processed by HPT at three different temperatures of 298, 373 and 473 K. After processing, microstructural observations were undertaken to reveal the distributions of graphene in the matrix, the grain refinement in the aluminium and the nature of the graphene-aluminium interfaces. Tests were performed to measure the microhardness, the tensile stress-strain curves and the electrical conductivity. The results show that processing by HPT is advantageous because it avoids the sintering and high temperature deformation associated with other processing routes.

https://eprints.bournemouth.ac.uk/31404/

Source: Scopus

The fabrication of graphene-reinforced Al-based nanocomposites using high-pressure torsion

Authors: Huang, Y., Bazarnik, P., Wan, D., Luo, D., Pereira, P.H.R., Lewandowska, M., Yao, J., Hayden, B.E., Langdon, T.G.

Journal: ACTA MATERIALIA

Publication Date: 01/02/2019

Volume: 164

Pages: 499-511

eISSN: 1873-2453

ISSN: 1359-6454

DOI: 10.1016/j.actamat.2018.10.060

https://eprints.bournemouth.ac.uk/31404/

Source: Web of Science

The fabrication of graphene-reinforced Al-based nanocomposites using high-pressure torsion

Authors: Huang, Y., Bazarnik, P., Wan, D., Luo, D., Pereira, P.H.R., Lewandowska, M., Yao, J., Hayden, B.E., Langdon, T.G.

Journal: Acta Materialia

Publication Date: 01/02/2019

Volume: 164

Pages: 499-511

Publisher: Elsevier

ISSN: 1359-6454

DOI: 10.1016/j.actamat.2018.10.060

Abstract:

Metal matrix nanocomposites were fabricated by high-pressure torsion (HPT) using 5% graphene nanoplates as a reinforcement contained within an Al matrix. Powders were mixed and compacted at room temperature and then processed by HPT at three different temperatures of 298, 373 and 473 K. After processing, microstructural observations were undertaken to reveal the distributions of graphene in the matrix, the grain refinement in the aluminium and the nature of the graphene-aluminium interfaces. Tests were performed to measure the microhardness, the tensile stress-strain curves and the electrical conductivity. The results show that processing by HPT is advantageous because it avoids the sintering and high temperature deformation associated with other processing routes.

https://eprints.bournemouth.ac.uk/31404/

Source: Manual

Preferred by: Yi Huang