Impact of surface state in probeless friction stir spot welding of an Al–Li alloy

Q. Chu; X. W. Yang; W. Y. Li; T. Lu; Y. Zhang; A. Vairis; W. B. Wang

doi:10.1080/13621718.2018.1517966

Impact of surface state in probeless friction stir spot welding of an Al–Li alloy

Q. Chu, X. W. Yang, W. Y. Li, T. Lu, Y. Zhang, A. Vairis, W. B. Wang

School of Materials Sience and Engineering

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

14 Scopus citations

Abstract

Sheets of AA2198 alloy with various surface conditions were welded with probeless friction stir spot welding (P-FSSW). Results show that the oxide layer on the original lap-weld surface produces continuously distributed oxide impurities at the interface of the P-FSSWed joint with a large amount of voids. The visual flow at the interface provides a persuasive explanation of local preferential abrasion. Following surface grinding, local abrasion increases with surface roughness and results in the dispersion of voids and oxides, which contributes to the improvement of metallurgical connection. The corresponding mechanical strength of the P-FSSWed joints shows a relatively significant increase, while the fracture mode remains affected by the hook defect regardless of the surface state.

Original language	English
Pages (from-to)	200-208
Number of pages	9
Journal	Science and Technology of Welding and Joining
Volume	24
Issue number	3
DOIs	https://doi.org/10.1080/13621718.2018.1517966
State	Published - 3 Apr 2019

Keywords

Probeless friction stir spot welding
aluminium–lithium alloy
mechanical strength
oxide film
surface roughness

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10.1080/13621718.2018.1517966

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title = "Impact of surface state in probeless friction stir spot welding of an Al–Li alloy",

abstract = "Sheets of AA2198 alloy with various surface conditions were welded with probeless friction stir spot welding (P-FSSW). Results show that the oxide layer on the original lap-weld surface produces continuously distributed oxide impurities at the interface of the P-FSSWed joint with a large amount of voids. The visual flow at the interface provides a persuasive explanation of local preferential abrasion. Following surface grinding, local abrasion increases with surface roughness and results in the dispersion of voids and oxides, which contributes to the improvement of metallurgical connection. The corresponding mechanical strength of the P-FSSWed joints shows a relatively significant increase, while the fracture mode remains affected by the hook defect regardless of the surface state.",

keywords = "Probeless friction stir spot welding, aluminium–lithium alloy, mechanical strength, oxide film, surface roughness",

author = "Q. Chu and Yang, {X. W.} and Li, {W. Y.} and T. Lu and Y. Zhang and A. Vairis and Wang, {W. B.}",

note = "Publisher Copyright: {\textcopyright} 2018, {\textcopyright} 2018 Institute of Materials, Minerals and Mining. Published by Taylor & Francis on behalf of the Institute.",

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doi = "10.1080/13621718.2018.1517966",

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TY - JOUR

T1 - Impact of surface state in probeless friction stir spot welding of an Al–Li alloy

AU - Chu, Q.

AU - Yang, X. W.

AU - Li, W. Y.

AU - Lu, T.

AU - Zhang, Y.

AU - Vairis, A.

AU - Wang, W. B.

PY - 2019/4/3

Y1 - 2019/4/3

N2 - Sheets of AA2198 alloy with various surface conditions were welded with probeless friction stir spot welding (P-FSSW). Results show that the oxide layer on the original lap-weld surface produces continuously distributed oxide impurities at the interface of the P-FSSWed joint with a large amount of voids. The visual flow at the interface provides a persuasive explanation of local preferential abrasion. Following surface grinding, local abrasion increases with surface roughness and results in the dispersion of voids and oxides, which contributes to the improvement of metallurgical connection. The corresponding mechanical strength of the P-FSSWed joints shows a relatively significant increase, while the fracture mode remains affected by the hook defect regardless of the surface state.

AB - Sheets of AA2198 alloy with various surface conditions were welded with probeless friction stir spot welding (P-FSSW). Results show that the oxide layer on the original lap-weld surface produces continuously distributed oxide impurities at the interface of the P-FSSWed joint with a large amount of voids. The visual flow at the interface provides a persuasive explanation of local preferential abrasion. Following surface grinding, local abrasion increases with surface roughness and results in the dispersion of voids and oxides, which contributes to the improvement of metallurgical connection. The corresponding mechanical strength of the P-FSSWed joints shows a relatively significant increase, while the fracture mode remains affected by the hook defect regardless of the surface state.

KW - Probeless friction stir spot welding

KW - aluminium–lithium alloy

KW - mechanical strength

KW - oxide film

KW - surface roughness

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JO - Science and Technology of Welding and Joining

JF - Science and Technology of Welding and Joining

IS - 3

ER -

Impact of surface state in probeless friction stir spot welding of an Al–Li alloy

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Keywords

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