Microstructure and mechanical property evolution of CFRP/Al electromagnetic riveted lap joint in a severe condition

[Display omitted] •The corrosion characteristics of CFRP/Al riveted structures were studied.•The variation trends of pit depth and weight with ageing time were obtained.•Relationship between microstructure and mechanical property of the joints was analyzed.•The corrosion mechanism of CFRP/Al riveted...

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Bibliographic Details
Published in:Engineering structures 2019-02, Vol.180, p.181-191
Main Authors: Jiang, Hao, Sun, Liqiang, Dong, Dongying, Li, Guangyao, Cui, Junjia
Format: Article
Language:English
Subjects:
Aging
Aluminum alloy
Carbon fiber reinforced plastics
Corrosion
Corrosion characteristics
Corrosion products
Corrosion rate
Crevice corrosion
Electrochemistry
Electromagnetic riveting
Evolution
Fracture mechanics
Lap joints
Mechanical property
Microstructure
Riveted joints
Weight
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Summary:[Display omitted] •The corrosion characteristics of CFRP/Al riveted structures were studied.•The variation trends of pit depth and weight with ageing time were obtained.•Relationship between microstructure and mechanical property of the joints was analyzed.•The corrosion mechanism of CFRP/Al riveted joints was analyzed. This paper investigated the microstructure and mechanical property evolution of CFRP/Al electromagnetic riveted structures exposed at a neutral salt spray environment. Electrochemical tests, microstructure observations, weight measurements and mechanical property tests were conducted. The observed results showed that corrosion pits on Al sheet were mainly located at the edge of the overlapping area due to the galvanic and crevice corrosion. Beside, visible cracks were observed on the surface of CFRP sheets after 3 weeks ageing. Maximum pit depth and weight evolution showed that the corrosion rate after the ageing time of 1 week was the fastest. The reason was that the corrosion products existed in pit and clearance effectively prevented oxygen and water contacting with Al matrix, which led to a decrease in the subsequent corrosion rate. The mechanical property tests results showed that the maximum shear loads after the ageing time of 1 week dropped the quickest due to faster corrosion rate at this stage. In addition, at the ageing time of 1 to 7 weeks, the maximum shear load after the ageing time of 3 weeks decreased faster. This was due to the surface of CFRP sheet was obviously damaged after the ageing time of 3 weeks, which further reduced the joint strength. In general, this work is expected to deeply understand the corrosion characteristics of the CFRP/Al electromagnetic riveted joints in engineering application.
ISSN:0141-0296
1873-7323
DOI:10.1016/j.engstruct.2018.11.042