Technical Paper
Understanding Resilience to Contamination in the Joint Interface for a Resistive Welded Joint in Fiber Reinforced Thermoplastics
2019-04-02
2019-01-1273
The continuous evolution to improve both the efficiency and lower the emissions of passenger vehicles now means that the need for light weighting is indisputable. New material systems such as fiber reinforced thermoplastic composites offer just such a very high lightweighting potential. Although most of these parts are currently joined using adhesives, resistive welding provides a promising alternative. Indeed, the faster cycle times, recyclability, design flexibility and resilience to contamination indicate the superiority of resistive welding over adhesive bonding. Although resilience to contamination is widely accepted, it is yet to be validated as very little scientific data is available concerning these characteristics. To ensure the scalability of these joints in automotive applications, they should exhibit tolerances to specific contaminations that are present in the body shop.