Print Email Facebook Twitter Ultrasonic Plastic Welding of Dissimilar Materials Title Ultrasonic Plastic Welding of Dissimilar Materials: Experimental investigation of metal/carbon fiber reinforced thermoplastic joints Author Dal Conte, Umberto (TU Delft Mechanical, Maritime and Materials Engineering) Contributor Fernandez Villegas, Irene (mentor) Richardson, Ian (graduation committee) Degree granting institution Delft University of Technology Date 2017-12-15 Abstract Due to EU regulations on fuel consumption, reducing the weight of vehicles has become one of the most important goals of car manufacturers in Europe. Among them, Toyota Motor Europe is one of the worldwide leaders in the research for a sustainable future. Materials like fiber-reinforced plastics and aluminum play a significant role in the research for lightweight design, thanks to their very good strength-to-weight ratio. However, joining these materials efficiently together is still a challenge. When thermoplastic composites are used, direct joining with the metal substrate can be obtained using welding technologies which melts the thermoplastic at the interface. Ultrasonic welding is well-known for being a fast, reliable and effective technology for metal/metal or plastic/plastic joining. In this study, a collaboration between Toyota and TU Delft, ultrasonic plastic welding was investigated as candidate joining technology for aluminum/thermoplastic joints in automotive applications. The goal was to understand the main mechanisms involved in the adhesion and how they affect the performance of the joint. Initially, the technique proved to be successful, but moderate strengths were obtained. Therefore, several surface pre-treatments of the aluminum were analyzed to improve performance in terms of strength and durability of the joint; mechanical, chemical and physical treatments were carried out. With laser structuring, strengths comparable to adhesive bonded joints were obtained, but in a much shorter process time. Other treatments such as conversion coating, sandblasting and plasma led to considerable improvements as well.The encouraging results achieved represent an important step in the development of ultrasonic plastic welding for multi-material joining in the automotive industry. Additional research could help Toyota and other car manufacturers realizing a better design to further decrease weight and CO2 emissions of vehicles. Subject Ultrasonic weldingThermoplasticAluminumSurface Treatment To reference this document use: http://resolver.tudelft.nl/uuid:fcbfb2d0-4a74-4c7a-8f27-025d6a5b8252 Part of collection Student theses Document type master thesis Rights © 2017 Umberto Dal Conte Files PDF MSc_thesis_non_confidenti ... ersion.pdf 77.3 MB Close viewer /islandora/object/uuid:fcbfb2d0-4a74-4c7a-8f27-025d6a5b8252/datastream/OBJ/view