A hybrid engine with 350 HP and outstanding torque helps the Imperia achieve the driving values of a super sports car. It only takes four seconds to accelerate from 0 to 100 km/h. And that’s only the beginning: The roadster also boasts sensationally low levels of CO2 emissions at 50 grams per kilometer.
The firm behind this technical innovation is L?ttich-based Green Propulsion, which has already brought several hybrid vehicle concepts to series readiness. For marketing the new roadster, the three company founders Yves Toussaint, Nicolas Naniot and Bernard Loly resurrected the Belgian automobile brand Imperia, which produced a vehicle with a fuel-electric motor as early as 1907.
Resurrection of a legend
The Imperia GP Roadster is the resurrection of a legend with entirely new technology. It derives its power from a 1.6 litre turbo gasoline engine with 200 HP, and an electric motor with an output of 150 HP. It also features an in-house developed gear unit with 4×2 gears. The production of the gear unit required some creativity, given the lack of large-series products available from suppliers’ shelves.
But anyone developing innovative vehicles also knows a few innovative development partners. Hence the Imperia developers turned to French foundry Sicta, which specialises in the production of aluminium die casting prototypes. It looked to 3D printing as the solution for manufacturing the required sand moulds.
After the initial discussions with voxeljet’s service centre, The Augsburg 3D experts were chosen to be the partner for this ambitious project.
voxeljet Services has more than ten 3D high-performance printers, including large format printers, which can generate moulds the size of a sports car, guarantee the rapid and efficient implementation of customer orders.
Rapid and efficient: 3D printing of sand moulds
In contrast to the conventional manufacture of moulds, in which the production of model plates or core boxes alone can take several weeks, the sand moulds for the gearbox were printed on voxeljet’s VX1000 high-performance printer in just a few days. The moulds are created without cumbersome and expensive mould set-ups, and are produced in a fully automated process purely based on CAD data using the layer building method, which consists of the repeated application of 300 micrometer thick quartz sand layers that are selectively glued together with a binder using the print head of the system.
Unpacking of the sand mould on the VX4000
The voxeljet print technology offers another advantage by using fine quartz sand. Compared to hand-made sand moulds, these finished cast parts feature a significantly smoother surface.
“The past few years have seen veritable quantum leaps with respect to printing quality as well as printing speed. The high-performance print heads of the new machines achieve excellent resolutions and printing speeds that are five times higher than even just a few years ago,” says voxeljet CEO Dr. Ingo Ederer.
Sand mould ready for casting
Checking the casting
In addition to time aspects, there are also cost savings considerations that favour the use of layer building technologies. When examined with respect to total costs, up to a certain batch size 3D printing is significantly cheaper than conventional methods due to the lack of tool costs. The smaller the batch size, the greater the cost advantage offered by voxeljet’s technology.
Aluminium casting (Credit: voxeljet)
Imperia and the Sicta foundry were very impressed with the performance of the voxeljet service centre and the printed sand moulds. In addition to the cost advantages, the time aspect was also considered a very important factor. In this context, Sicta was able to deliver a gearbox of perfect quality to the Imperia team just three weeks after receiving the order. This is a big step towards bringing the legend back to life.