Stress Concentration Analysis of the Corroded Steel Plate Strengthened with Carbon Fiber Reinforced Polymer (CFRP) Plates

The purpose of this study is to investigate the stress concentration of a corroded steel plate strengthened with carbon fiber reinforced polymer (CFRP) plates. An accelerated corrosion experiment was first executed to acquire corroded steel plates, and then surface profile measurements were conducted to obtain 3D coordinate data of the corroded steel surface. Finite element models considering the surface morphology of the corroded steel plate and the interfacial bonding properties between the CFRP plate and the corroded steel plate were established to investigate the stress concentration of the corroded steel plate strengthened with and without CFRP plates. The reliability of the numerical modeling method was verified based on a mesh convergence analysis and a comparison of the fatigue test, 3D morphology scanning, and numerical analysis results. Specimens with five levels of corrosion damage, six kinds of CFRP-strengthening stiffness, five kinds of adhesive thickness, and five levels of CFRP prestress were numerically modeled. The primary indications consist of features of stress distribution, and the stress concentration factors K-t and K-tg were analyzed. Results showed that the features of stress distribution and the stress concentration factor K-t of the corroded steel plate strengthened with and without CFRP plates are only related to the shape, size, and position of rust pits, but not to the degree of uniform corrosion or the reinforcement parameters. The value of K-t for the corroded steel plate with a corrosion duration of 6-18 months and a weight loss rate of 9.16 similar to 21.78% was approximately 1.199 similar to 1.345. The converted stress concentration factor K-tg has more practical significance than the stress concentration factor K-t in describing the influence of corrosion and CFRP reinforcement on the peak tensile stress of the corroded steel plate. The value of K-tg increased linearly with the increase of the weight loss rate of the corroded steel plate and decreased appreciably with the increase of the strengthening stiffness and prestress level of the CFRP plates, and it presented a very small increasing trend with the increase of the adhesive thickness.

Automated summary

The purpose of this study is to investigate the stress concentration of a corroded steel plate strengthened with carbon fiber reinforced polymer (CFRP) plates. Surface profile measurements were conducted to obtain 3D coordinate data of the corroded steel surface, and finite element models were established to investigate the stress concentration. The results showed that the stress distribution is related to the shape, size, and position of rust pits, while the stress concentration factor is influenced by the weight loss rate, stiffness, and prestress level of the CFRP plates.