X‐ray photoelectron spectroscopy study on the photodegradation of copolyester model compounds

Arangdad, Kiarash; Yıldırım, Erol; Detwiler, Andrew T.; Cleven, Curtis D.; Burk, Christopher; Shamey, Renzo; Pasquinelli, Melissa A.; Freeman, Harold S.; El‐Shafei, Ahmed

doi:10.1002/app.49661

Cited by 2 publications

(2 citation statements)

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“…It is proved that the loose and porous structure of the anodic oxide film is conducive to the formation of robust bonding between CFRP plate and 5083 plate, thus enhancing the mechanical properties of the CFRP/5083 joint. In order to further understand the effect of anodization on the bonding behavior and strength of the CFRP/5083 joint, X-ray photoelectron spectroscopy (XPS) [25,26] was performed on the interface of the CFRP/5083 joint, and the results are shown in Figure 15. Figure 16a is the fitting diagram of O (1 s) peaks at the interface without anodization before induction brazing.…”

Section: Cfrp/5083 Connection Mechanismmentioning

confidence: 99%

“…After the surface of the 5083 aluminum alloy was anodized, the loose and porous structure of the oxide film not only increased the mechanical bonding strength of the interface, but also led to the formation of a new bond at the CFRP/5083 interface, which enhanced the bonding strength of the joint. In order to further understand the effect of anodization on the bonding behavior and strength of the CFRP/5083 joint, X-ray photoelectron spectroscopy (XPS) [25,26] was performed on the interface of the CFRP/5083 joint, and the results are shown in Figure 15. Figure 16a [8,27], it can be inferred that Al-O-C chemical bonds were formed at the interface [27].…”

Section: Cfrp/5083 Connection Mechanismmentioning

confidence: 99%

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Jointing of CFRP/5083 Aluminum Alloy by Induction Brazing: Processing, Connecting Mechanism, and Fatigue Performance

Guo

Gou

et al. 2022

Coatings

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Carbon fiber reinforced polymer (CFRP) is widely used in the lightweight design of high-speed trains due to its high specific strength. In order to further reduce the weight of the high-speed train body, it is necessary to study the joining process and fatigue properties of CFRP/aluminum alloys (CFRP/Al) structure. In this work, the CFRP plate and 5083P-O aluminum plate were successfully connected by an induction brazing method. The optimum parameters of induction brazing were determined to be an induction temperature of 290 °C, a normal pressure of 200 kPa, and a holding time of 5 s. After the 5083 plate was pre-anodized, the tensile strength of the CFRP/5083 joint reached a maximum value of 176.5 MPa. The anodization process introduced more surface micro-structures on the 5083 plate, leading to a better wetting behavior between CFRP and oxide film. Meanwhile, a new chemical bond, Al-O-C, was also formed at the interface of the CFRP/5083 joint. The fatigue limit of the CFRP/5083 joint was calculated to be 71.68 MPa through high-cycle fatigue (HCF) testing. The fatigue cracks initiated from the interface of CFRP/oxide film, and then propagated to base metal. Finally, the oxide film was peeled off from the base metal under shear stress, which contributed to the fracture of the CFRP/5083 joint. The bonding strength between CFRP and 5083 aluminum alloy is far from the conventional welded joints. Therefore, feasible approaches should be proposed to obtain a more robust bonding between CFRP and aluminum alloy in the future.

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Section: Cfrp/5083 Connection Mechanismmentioning

confidence: 99%