Graded SiC reinforced magnesium wires: towards high throughput composite alloy discovery
Graded SiC reinforced magnesium wires: towards high throughput composite alloy discovery
High-throughput methods can accelerate the development of metal alloys and (nano)composites, both empirically and as input to computational methods. This study introduces a new route to fabricating composite wires with longitudinally varying composition using the byproduct of stationary-shoulder friction stir channelling (SS-FSC); this sample format is attractive for a variety of rapid read-out options in the future. The concept is illustrated by preparing Mg composite wires with a longitudinally graded concentration of SiC-particles. Spark plasma sintering (SPS) was used to encode a step-change in SiC concentration within a feedstock billet. Subsequent SS-FSC transformed this discrete compositional step into a continuous, graded extruded wire. Microstructural analysis revealed significant grain refinement from the SPS billet (44.3 ± 2.3 µm) to the SS-FSC wire (7.4 ± 0.5 µm), with even finer grains in SiC-loaded regions (5.1 ± 0.5 µm), attributed to particle-stimulated nucleation. Mechanical characterisation confirmed a hardness increase, from 65.8 ± 1.2 HV3 to 68.9 ± 2.7 HV3 (high SiC-content). This proof-of-concept study confirms the effectiveness of SS-FSC in producing high-quality wires with tailored microstructural and mechanical gradients. Additional compositions could be readily multiplexed in the original billet, providing a robust high-throughput technique for comprehensive structure–property investigations of advanced alloys and composites.
Graded composite, High-throughput prototyping, SiC reinforced Mg matrix composite, Stationary-shoulder friction stir channelling (SS-FSC)
Xu, Zhuocheng
485d93cc-beb4-471a-b257-7d10514d0e88
Zhao, Xingjian
58a8bb85-92c9-4e89-b4af-43d57fbe865f
Watts, Oliver
74a54273-08eb-4aca-9077-9be821443cac
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f
Shaffer, Milo S.P.
f2e7a6d0-2b70-4b2c-bbd2-35e9e11b1ed3
Holdsworth, Sam
68bafefe-a82a-447d-a9de-9c597c9f5d1f
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Li, Qianqian
bcee0f51-d129-4216-827d-aace4ca4d397
6 May 2025
Xu, Zhuocheng
485d93cc-beb4-471a-b257-7d10514d0e88
Zhao, Xingjian
58a8bb85-92c9-4e89-b4af-43d57fbe865f
Watts, Oliver
74a54273-08eb-4aca-9077-9be821443cac
Rainforth, W. Mark
7226983c-4ca1-4f0a-8191-02e3424dc98f
Shaffer, Milo S.P.
f2e7a6d0-2b70-4b2c-bbd2-35e9e11b1ed3
Holdsworth, Sam
68bafefe-a82a-447d-a9de-9c597c9f5d1f
Guan, Dikai
d20c4acc-342a-43fa-a204-7283f0cc33bf
Li, Qianqian
bcee0f51-d129-4216-827d-aace4ca4d397
Xu, Zhuocheng, Zhao, Xingjian, Watts, Oliver, Rainforth, W. Mark, Shaffer, Milo S.P., Holdsworth, Sam, Guan, Dikai and Li, Qianqian
(2025)
Graded SiC reinforced magnesium wires: towards high throughput composite alloy discovery.
Materials & Design, 254, [114016].
(doi:10.1016/j.matdes.2025.114016).
Abstract
High-throughput methods can accelerate the development of metal alloys and (nano)composites, both empirically and as input to computational methods. This study introduces a new route to fabricating composite wires with longitudinally varying composition using the byproduct of stationary-shoulder friction stir channelling (SS-FSC); this sample format is attractive for a variety of rapid read-out options in the future. The concept is illustrated by preparing Mg composite wires with a longitudinally graded concentration of SiC-particles. Spark plasma sintering (SPS) was used to encode a step-change in SiC concentration within a feedstock billet. Subsequent SS-FSC transformed this discrete compositional step into a continuous, graded extruded wire. Microstructural analysis revealed significant grain refinement from the SPS billet (44.3 ± 2.3 µm) to the SS-FSC wire (7.4 ± 0.5 µm), with even finer grains in SiC-loaded regions (5.1 ± 0.5 µm), attributed to particle-stimulated nucleation. Mechanical characterisation confirmed a hardness increase, from 65.8 ± 1.2 HV3 to 68.9 ± 2.7 HV3 (high SiC-content). This proof-of-concept study confirms the effectiveness of SS-FSC in producing high-quality wires with tailored microstructural and mechanical gradients. Additional compositions could be readily multiplexed in the original billet, providing a robust high-throughput technique for comprehensive structure–property investigations of advanced alloys and composites.
Text
JMADE-D-25-00545_R1 (1)
- Accepted Manuscript
Text
1-s2.0-S0264127525004368-main
- Version of Record
More information
Accepted/In Press date: 26 April 2025
e-pub ahead of print date: 28 April 2025
Published date: 6 May 2025
Keywords:
Graded composite, High-throughput prototyping, SiC reinforced Mg matrix composite, Stationary-shoulder friction stir channelling (SS-FSC)
Identifiers
Local EPrints ID: 501886
URI: http://eprints.soton.ac.uk/id/eprint/501886
ISSN: 0261-3069
PURE UUID: 18567155-0c5b-444e-a970-df4b5b445f46
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Date deposited: 11 Jun 2025 18:10
Last modified: 18 Sep 2025 02:08
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Contributors
Author:
Zhuocheng Xu
Author:
Xingjian Zhao
Author:
Oliver Watts
Author:
W. Mark Rainforth
Author:
Milo S.P. Shaffer
Author:
Sam Holdsworth
Author:
Dikai Guan
Author:
Qianqian Li
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