Jaguar Land Rover invested in the Objet500 Connex to broaden its resin-based rapid prototyping capabilities. The ability to create models directly from CAD data with elastomer, rubber-like materials and produce working mechanisms, were other key benefits that would contribute towards reducing development cycles. To prove its capability, the Connex was initially tasked with producing a complete facia air vent assembly for a Range Rover Sport. It used rigid materials for the housing and air-deflection blades, and rubber-like materials for the control knobs and air seal. Jaguar Land Rover printed the complete facia air vent, as a working part, in a single process. Once printed, the model was taken from the printer, cleaned and tested immediately, proving that the hinges on the blades all worked, and the control knob had the right look and feel. The backbone of the Objet Connex500™ is PolyJet™ technology. By jetting two distinctive model materials in preset combinations in a matrix structure, the printer creates multiple flexible and rigid materials with different mechanical and physical properties and finishes.
Using this technology, Jaguar Land Rover’s Objet500 Connex has accumulated 5,000 hours of operation, printed more than 2,500 parts and used 600kg of resin. It’s a testament to the productivity and reliability of PolyJet technology that the 3D printer has required little maintenance and replacement of just five print heads throughout this time, at the intervals recommended by Objet to maintain optimum quality. The number of parts produced on the printer has steadily increased as the team has found new ways to capitalize on the Connex capabilities. The figures are still only a small percentage of the 30,000 parts prototyped by Jaguar Land Rover every year, but many of these are laser sintered. For resin-based parts, the trend is in favor of the Objet500 Connex, which now accounts for more than one third of production.Interestingly, the Objet 3D Printer is often used to produce single-material rigid parts due to its speed and simple post processing. When in multi-material, it is used for a variety of activities, including styling and human/machine interface concepts, such as knobs, switches and key fobs.