Comparative Study on Wire-Arc Additive Manufacturing and Conventional Casting of Al–Si Alloys: Porosity, Microstructure and Mechanical Property

Yueling Guo; Qifei Han; Jinlong Hu; Xinghai Yang; Pengcheng Mao; Junsheng Wang; Shaobo Sun; Zhi He; Jiping Lu; Changmeng Liu

doi:10.1007/s40195-021-01314-1

Comparative Study on Wire-Arc Additive Manufacturing and Conventional Casting of Al–Si Alloys: Porosity, Microstructure and Mechanical Property

Yueling Guo^*, Qifei Han, Jinlong Hu, Xinghai Yang, Pengcheng Mao, Junsheng Wang, Shaobo Sun, Zhi He, Jiping Lu, Changmeng Liu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

29 Citations (Scopus)

Abstract

Here, we compare the porosity, microstructure and mechanical property of 4047 Al–Si alloys prepared by wire-arc additive manufacturing (WAAM) and conventional casting. X-ray microscopy reveals that WAAM causes a higher volume fraction of gas pores in comparison with conventional casting. Effective refinements of α-Al dendrites, eutectic Si particles and Fe-rich intermetallic compounds are achieved by WAAM, resulting from its rapid solidification process. Both ultimate tensile strength (UTS, up to 205.6 MPa) and yield stress (YS, up to 98.0 MPa) are improved by WAAM at the expense of elongation after fracture. The mechanical property anisotropy between scanning direction and build direction is minimal for alloys via WAAM. Additional microstructure refinement and strength enhancement are enabled by increasing the travel speed of welding torch from 300 to 420 mm/min.

Original language	English
Pages (from-to)	475-485
Number of pages	11
Journal	Acta Metallurgica Sinica (English Letters)
Volume	35
Issue number	3
DOIs	https://doi.org/10.1007/s40195-021-01314-1
Publication status	Published - Mar 2022

Keywords

Al–Si alloy
Microstructure
Porosity
Strength
Wire-arc additive manufacturing

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10.1007/s40195-021-01314-1

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title = "Comparative Study on Wire-Arc Additive Manufacturing and Conventional Casting of Al–Si Alloys: Porosity, Microstructure and Mechanical Property",

abstract = "Here, we compare the porosity, microstructure and mechanical property of 4047 Al–Si alloys prepared by wire-arc additive manufacturing (WAAM) and conventional casting. X-ray microscopy reveals that WAAM causes a higher volume fraction of gas pores in comparison with conventional casting. Effective refinements of α-Al dendrites, eutectic Si particles and Fe-rich intermetallic compounds are achieved by WAAM, resulting from its rapid solidification process. Both ultimate tensile strength (UTS, up to 205.6 MPa) and yield stress (YS, up to 98.0 MPa) are improved by WAAM at the expense of elongation after fracture. The mechanical property anisotropy between scanning direction and build direction is minimal for alloys via WAAM. Additional microstructure refinement and strength enhancement are enabled by increasing the travel speed of welding torch from 300 to 420 mm/min.",

keywords = "Al–Si alloy, Microstructure, Porosity, Strength, Wire-arc additive manufacturing",

author = "Yueling Guo and Qifei Han and Jinlong Hu and Xinghai Yang and Pengcheng Mao and Junsheng Wang and Shaobo Sun and Zhi He and Jiping Lu and Changmeng Liu",

note = "Publisher Copyright: {\textcopyright} 2021, The Chinese Society for Metals (CSM) and Springer-Verlag GmbH Germany, part of Springer Nature.",

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doi = "10.1007/s40195-021-01314-1",

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T2 - Porosity, Microstructure and Mechanical Property

AU - Guo, Yueling

AU - Han, Qifei

AU - Hu, Jinlong

AU - Yang, Xinghai

AU - Mao, Pengcheng

AU - Wang, Junsheng

AU - Sun, Shaobo

AU - He, Zhi

AU - Lu, Jiping

AU - Liu, Changmeng

PY - 2022/3

Y1 - 2022/3

N2 - Here, we compare the porosity, microstructure and mechanical property of 4047 Al–Si alloys prepared by wire-arc additive manufacturing (WAAM) and conventional casting. X-ray microscopy reveals that WAAM causes a higher volume fraction of gas pores in comparison with conventional casting. Effective refinements of α-Al dendrites, eutectic Si particles and Fe-rich intermetallic compounds are achieved by WAAM, resulting from its rapid solidification process. Both ultimate tensile strength (UTS, up to 205.6 MPa) and yield stress (YS, up to 98.0 MPa) are improved by WAAM at the expense of elongation after fracture. The mechanical property anisotropy between scanning direction and build direction is minimal for alloys via WAAM. Additional microstructure refinement and strength enhancement are enabled by increasing the travel speed of welding torch from 300 to 420 mm/min.

AB - Here, we compare the porosity, microstructure and mechanical property of 4047 Al–Si alloys prepared by wire-arc additive manufacturing (WAAM) and conventional casting. X-ray microscopy reveals that WAAM causes a higher volume fraction of gas pores in comparison with conventional casting. Effective refinements of α-Al dendrites, eutectic Si particles and Fe-rich intermetallic compounds are achieved by WAAM, resulting from its rapid solidification process. Both ultimate tensile strength (UTS, up to 205.6 MPa) and yield stress (YS, up to 98.0 MPa) are improved by WAAM at the expense of elongation after fracture. The mechanical property anisotropy between scanning direction and build direction is minimal for alloys via WAAM. Additional microstructure refinement and strength enhancement are enabled by increasing the travel speed of welding torch from 300 to 420 mm/min.

KW - Al–Si alloy

KW - Microstructure

KW - Porosity

KW - Strength

KW - Wire-arc additive manufacturing

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IS - 3

ER -

Comparative Study on Wire-Arc Additive Manufacturing and Conventional Casting of Al–Si Alloys: Porosity, Microstructure and Mechanical Property

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