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Experimental investigation and quantitative prediction in interference-fit size of CFRP riveted joints under a transversal ultrasonic vibration-assisted riveting

Xingxing Wang, Yunyang Shi, Haicheng Pan, Yegao Chen

2023Scientific Reports12 citationsDOIOpen Access PDF

Abstract

Abstract In this study, a transversal ultrasonic vibration-assisted riveting (TUVAR) process was developed to improve the uniformity of CFRP riveted lap joint interference-fit size, which provided a possibility for the quantization of riveted joint interference-fit sizes. The relationship between the process parameters of vibration amplitude, vibration duration, and roughness with interference-fit sizes by algorithms, through the minimum coefficient variance of interference-fit size ( I CV-min ) to confirm the riveting process parameters of the quantized average interference-fit sizes ( I A ). The experimental verification results showed that the mean absolute percentage error of measured I A and predicted I A is less than 10%. Furthermore, the tensile tests were carried out to investigate the effect of interference-fit size {1.4%, 1.6%, 1.8%, and 2.0%} on mechanical performances of CFRP riveted lap joints by TUVAR, and the tensile strength presents first-up then down with the interference-fit size increase, the maximum ultimate tensile strength is the riveted lap joint with the interference-fit size of 2.0%. Hence, the quantitative optimization method can well predict the riveting process parameters corresponding to the most uniform interference-fit size.

Topics & Concepts

RivetInterference (communication)Ultimate tensile strengthInterference fitMaterials scienceVibrationUltrasonic sensorJoint (building)Structural engineeringLap jointComposite materialAcousticsComputer scienceEngineeringPhysicsTelecommunicationsChannel (broadcasting)Advanced Welding Techniques AnalysisMetal Forming Simulation TechniquesFatigue and fracture mechanics
Experimental investigation and quantitative prediction in interference-fit size of CFRP riveted joints under a transversal ultrasonic vibration-assisted riveting | Litcius