The company sources wheels and wheel carriers from its network of suppliers. However, at the BMW plant in Landshut two innovative processes have been established that revolutionise the casting of aluminium components. ‘Injector casting’ is used for the housing of the electric motor, which combines the power electronics, transmission, stator, rotor and cooling system in a single unit. ‘This process, which we developed and patented in Landshut, enables the mould to be filled efficiently using an injector, eliminating the need for an additional gating system,’ explains a BMW spokeswoman. The lower melting temperature reduces energy consumption, speeds up solidification and improves mechanical properties. The result is thin-walled structures that can still withstand high loads.
Interaction between robotics and sensor technology
The second key process is ‘integral casting’, which is used to manufacture the rear axle carrier in one piece. This construction method reduces the amount of material used, thereby lowering the weight. ‘This not only saves material but also reduces CO₂ emissions both during production and later vehicle operation,’ said the BMW spokesperson. The rear axle carrier plays a key role in driving dynamics and crash safety – the fact that it can also be made from secondary aluminium is proof of the level of development that has been achieved. BMW did not want to provide specific information on the secondary raw material quotas for individual components.
The manufacturing process itself now resembles a finely choreographed interplay of robotics and sensor technology. The impact of automation on the processes is already evident in the core handling stage: robots pick up sand cores directly from the picking station and place them precisely in the mould. During sieve handling, a needle gripper prevents contaminants from entering the melt – a technique that originally comes from CFRP production. Camera systems check the exact positioning before casting. Automation continues even after casting: robots remove the parts and transfer them to the conveyor system, which transports them to the machining area. Even the furnace lid is now operated automatically.
