The influence of graphene oxide on the microstructure and properties of ultrafine-grained copper processed by high-pressure torsion
The influence of graphene oxide on the microstructure and properties of ultrafine-grained copper processed by high-pressure torsion
New metal matrix nanocomposites with enhanced thermal stability were produced in a three step process consisting of mechanical milling, spark plasma sintering and High-Pressure Torsion (HPT). The nanocomposites consisted of a copper matrix and the addition of 1 wt% Graphene Oxide (GO) as a reinforcement. A nanocrystalline microstructure, enhanced hardness and improved thermal stability were achieved. The grain size of the nanocomposites was ∼55 nm which is almost four time smaller than for Cu HPT at 210 nm. Hardnes and ultimate tensile strength of the nanocomposites reach 250 Hv and 700 MPa, respectively, which was more than three times higher than for the initial material. The most important result is that the nanocomposites remained ultrafine-grained up to 500 ⁰C whereas the Cu HPT fully recrystalized after annealing at 300 ⁰C The report also includes an investigation of the electrical conductivity of the copper-based composite which was slightly better than for copper after HPT together with the wear behaviour of this material. This is one of the first reports on copper reinforced with graphene oxide composites produced by HPT and it gives information on its thermal stability, electrical conductivity and wear behaviour together with the microstructural characteristics and mechanical properties.
copper, graphen oxide, high-pressure torsion, metal matrix composites, thermal stability
Emerla, Maria
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Bazarnik, Piotr
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Huang, Yi
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Wojciechowska, Anita
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Ciemiorek, Marta
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Pura, Jaroslaw
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Wieczorek-Czarnocka, Monika
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Muhammad Abiyyu Kenichi, Purbayanto
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Jastrzebska, Agnieszka
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Lewandowska, Malgorzata
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Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
31 August 2024
Emerla, Maria
0535ae99-edb0-4e25-9404-356ca343cd44
Bazarnik, Piotr
e72779b9-c2f8-4eea-b9f2-89525937789c
Huang, Yi
9f4df815-51c1-4ee8-ad63-a92bf997103e
Wojciechowska, Anita
d5708b53-b120-4578-8b4e-f02d01a55e0a
Ciemiorek, Marta
8c9fab52-bd46-43c1-9090-8ebf5d7f877f
Pura, Jaroslaw
2890683b-06cd-40fa-bda4-7a82518f563b
Wieczorek-Czarnocka, Monika
678bebe1-66e0-47b1-82ea-32d0d7d69562
Muhammad Abiyyu Kenichi, Purbayanto
dc5f8839-88b0-4d19-a96c-e9882c63f791
Jastrzebska, Agnieszka
eaa6f5eb-138e-45c3-bb85-1ea5c9469c07
Lewandowska, Malgorzata
e18ef2b5-40dc-48cd-b916-933981a04234
Langdon, Terence G.
86e69b4f-e16d-4830-bf8a-5a9c11f0de86
Emerla, Maria, Bazarnik, Piotr, Huang, Yi, Wojciechowska, Anita, Ciemiorek, Marta, Pura, Jaroslaw, Wieczorek-Czarnocka, Monika, Muhammad Abiyyu Kenichi, Purbayanto, Jastrzebska, Agnieszka, Lewandowska, Malgorzata and Langdon, Terence G.
(2024)
The influence of graphene oxide on the microstructure and properties of ultrafine-grained copper processed by high-pressure torsion.
Journal of Alloys and Compounds, 1005.
Abstract
New metal matrix nanocomposites with enhanced thermal stability were produced in a three step process consisting of mechanical milling, spark plasma sintering and High-Pressure Torsion (HPT). The nanocomposites consisted of a copper matrix and the addition of 1 wt% Graphene Oxide (GO) as a reinforcement. A nanocrystalline microstructure, enhanced hardness and improved thermal stability were achieved. The grain size of the nanocomposites was ∼55 nm which is almost four time smaller than for Cu HPT at 210 nm. Hardnes and ultimate tensile strength of the nanocomposites reach 250 Hv and 700 MPa, respectively, which was more than three times higher than for the initial material. The most important result is that the nanocomposites remained ultrafine-grained up to 500 ⁰C whereas the Cu HPT fully recrystalized after annealing at 300 ⁰C The report also includes an investigation of the electrical conductivity of the copper-based composite which was slightly better than for copper after HPT together with the wear behaviour of this material. This is one of the first reports on copper reinforced with graphene oxide composites produced by HPT and it gives information on its thermal stability, electrical conductivity and wear behaviour together with the microstructural characteristics and mechanical properties.
Text
Piotr-JACOM accepted manuscript
- Author's Original
Text
1-s2.0-S0925838824027956-main
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Accepted/In Press date: 27 August 2024
e-pub ahead of print date: 29 August 2024
Published date: 31 August 2024
Keywords:
copper, graphen oxide, high-pressure torsion, metal matrix composites, thermal stability
Identifiers
Local EPrints ID: 494315
URI: http://eprints.soton.ac.uk/id/eprint/494315
ISSN: 0925-8388
PURE UUID: e130ee45-f73c-4be7-95ca-72538e91bcd8
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Date deposited: 03 Oct 2024 16:43
Last modified: 04 Oct 2024 01:44
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Contributors
Author:
Maria Emerla
Author:
Piotr Bazarnik
Author:
Yi Huang
Author:
Anita Wojciechowska
Author:
Marta Ciemiorek
Author:
Jaroslaw Pura
Author:
Monika Wieczorek-Czarnocka
Author:
Purbayanto Muhammad Abiyyu Kenichi
Author:
Agnieszka Jastrzebska
Author:
Malgorzata Lewandowska
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