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A Study on Through-the-Thickness Heating in Continuous Ultrasonic Welding of Thermoplastic Composites

B.C.P. Jongbloed, Julie Teuwen, Rinze Benedictus, Irene Fernández Villegas

2021Materials29 citationsDOIOpen Access PDF

Abstract

Continuous ultrasonic welding is a promising technique for joining thermoplastic composites structures together. The aim of this study was to gain further insight into what causes higher through-the-thickness heating in continuous ultrasonic welding of thermoplastic composites as compared to the static process. Thermocouples were used to measure temperature evolutions at the welding interface and within the adherends. To understand the mechanisms causing the observed temperature behaviours, the results were compared to temperature measurements from an equivalent static welding process and to the predictions from a simplified heat transfer model. Despite the significantly higher temperatures measured at the welding interface for the continuous process, viscoelastic bulk heat generation and not thermal conduction from the interface was identified as the main cause of higher through-the-thickness heating in the top adherend. Interestingly the top adherend seemed to absorb most of the vibrational energy in the continuous process as opposed to a more balanced energy share between the top and bottom adherend in the static process. Finally, the higher temperatures at the welding interface in continuous ultrasonic welding were attributed to pre-heating of the energy director due to the vibrations being transmitted downstream of the sonotrode, to reduced squeeze-flow of energy director due to the larger adherend size, and to heat flux originating downstream as the welding process continues.

Topics & Concepts

Materials scienceWeldingUltrasonic weldingComposite materialUltrasonic sensorHeat fluxPlastic weldingThermal conductionThermocoupleThermoplasticHeat transferFiller metalMechanicsArc weldingAcousticsPhysicsMechanical Behavior of CompositesElectronic Packaging and Soldering TechnologiesUltrasonics and Acoustic Wave Propagation
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