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- Title
A quantitative residual stiffness model for carbon fiber reinforced polymer tendons.
- Authors
Wang, Chao; Zhang, Jiwen; Gonzalez‐Libreros, Jaime; Tu, Yongming; Elfgren, Lennart; Sas, Gabriel
- Abstract
In this study, tension‐tension fatigue tests were conducted to investigate the residual stiffness degradation of carbon fiber‐reinforced polymer (CFRP) tendons. Different stress levels were used in the tests, and measurements of residual stiffness and the number of loading cycles were taken. Based on experimental data for CFRP tendons, a quantitative residual stiffness model was developed by modifying Yao's model. This model is applicable to various stress levels. To assess its accuracy and applicability, the predicted results of this model were compared with those of cited models from other researchers. The findings revealed a three‐stage degradation of residual stiffness in CFRP tendons under different stress levels. Furthermore, it was observed that the proportion of fatigue life accounted for by Stage III decreased with smaller stress ranges, while the proportion accounted for by Stage II increased. The proposed quantitative residual stiffness model was verified using both experimental and cited data. Highlights: Tension‐tension fatigue tests of CFRP tendons were conducted at various stress levels.A quantitative model was proposed based on the residual stiffness of the CFRP tendon.Stress level influence on stiffness degradation of composite material was discussed.Model accuracy was verified against experimental and cited data.
- Subjects
CARBON fibers; CARBON fiber-reinforced plastics; TENDONS; TENSION loads; FATIGUE life; FATIGUE testing machines
- Publication
Fatigue & Fracture of Engineering Materials & Structures, 2024, Vol 47, Issue 6, p2068
- ISSN
8756-758X
- Publication type
Article
- DOI
10.1111/ffe.14290