Effects of salt solution on mechanical behaviors of aramid fiber–reinforced polymer (AFRP) sheets and AFRP-to-concrete joints

Wu, Bo; Zhang, Shuo; Liu, Fentao; Gan, Tao

doi:10.1177/1369433216649389

Cited by 16 publications

(2 citation statements)

References 27 publications

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“…It can be said that it has values between glass and carbon in terms of cost and mechanical performance for aramid fibers. 16 Water absorption is a direct factor in the mechanical properties of polymer composite materials that led researchers to study the topics of hygrothermal/hydrothermal aging effect in mechanical properties of plain, hybrid, reinforced composites, etc.…”

Section: Introductionmentioning

confidence: 99%

Degradation of hybrid aramid/glass/epoxy composites hydrothermally aged in distilled water

Oğuz

Erkliğ

Bozkurt

2020

Journal of Composite Materials

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The main objective of this paper is to investigate the effects of distilled water on the flexural and impact properties of glass/aramid fibers reinforced epoxy resin hybrid laminated composites. Four different groups of composite samples ([G6]S, [A6]S, [G3A3]S, [A3G3]S) were produced by the vacuum infusion method (VARIM), and treated with the distilled water at a temperature of 25 and 70°C for 1000 h. Mechanical tests were carried out under three different conditions, dry, wet, and re-dried. The mass gain ratio of the samples was examined for different periods. The fracture surfaces of the samples were examined using SEM. Results indicated that water intake of all composite samples followed as Fickian-like behavior. The stacking sequence of hybrid composite showed a major effect on water absorption features. The distilled water treatment caused a significant decrease in flexural strength, impact strength of all groups. Reduction of flexural strength and impact strength were increased as the temperature was increased for both impact tests.

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Section: Introductionmentioning

confidence: 99%

Degradation of hybrid aramid/glass/epoxy composites hydrothermally aged in distilled water

Oğuz

Erkliğ

Bozkurt

2020

Journal of Composite Materials

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“…Tensile strength also degrades with increased F-T cycle [18,19]. After reaching a certain cycle number, the tensile-shear strength returns to the unfrozen state [20]. The change in Young's modulus is insignificant [21], and the elastic modulus of the ERA is hardly affected after 250 F-T cycles (−17 • C-8 • C) [22].…”

Section: Introductionmentioning

confidence: 99%

Durability of CFRP–Steel Double–Lap Joints under Cyclic Freeze–Thaw/Wet–Dry Conditions

Ren

Jiang

et al. 2022

Polymers

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The usage of carbon fiber–reinforced polymer (CFRP) to strengthen cracked steel structures can effectively improve its bear capacity, so it has been extensively used in recent years. The degradation of interfacial bonding is one of the most important factors affecting the durability of CFRP–steel structures under a freeze–thaw(F–T)/wet–dry (W–D) environment. In this study, epoxy resin adhesive (ERA) dog-bone specimens and CFRP–steel double-lap joints (bonded joints) were prepared. F–T/W–D cycles experiment and tensile tests of the ERA specimens and the bonded joints were also performed. Under F–T/W–D cycles, the main properties of the ERA specimens and the bonded joints were examined. Results indicated that fracture failure occurred in all ERA specimens. The hybrid failure modes of fiber peeling on the surface of CFRP plate and the bonded interface peeling between the CFRP plate and ERA layer primarily occurred in the bonded joints. The failure of both of them can be considered to be brittle, which was unaffected by the F–T/W–D cycles. With increased F–T/W–D cycles, the ultimate load and tensile strength of the ERA specimens initially increased and then decreased, whereas the elastic modulus initially increased and then remained unchanged. The ultimate load of the bonded joints decreased gradually. Based on the relationship between the interfacial bond-slip parameters and the number of F–T/W–D cycles, the bond–slip model of the bonded joints was established. The proposed relationship was validated by comparing with the experimental bond-slip relationships and the predicted relationships under the F–T/W–D cycles.

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Degradation of Interfacial Behaviour Between AFRP and Concrete Under Sulfate Attack

Zhao,

2024

Lecture Notes in Civil Engineering

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Effects of salt solution on mechanical behaviors of aramid fiber–reinforced polymer (AFRP) sheets and AFRP-to-concrete joints

Cited by 16 publications

References 27 publications

Degradation of hybrid aramid/glass/epoxy composites hydrothermally aged in distilled water

Degradation of hybrid aramid/glass/epoxy composites hydrothermally aged in distilled water

Durability of CFRP–Steel Double–Lap Joints under Cyclic Freeze–Thaw/Wet–Dry Conditions

Degradation of Interfacial Behaviour Between AFRP and Concrete Under Sulfate Attack

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