MAGMA, Hüttenes-Albertus (HA) and Laempe Mössner Sinto join forces to present digital core production

Three leading technology providers in their fields, MAGMA GmbH, which specialises in the virtual optimisation of foundry processes, Hüttenes-Albertus (HA), a leading supplier of foundry chemicals and Laempe Mössner Sinto GmbH, the core shooting machine manufacturer, have joined forces to establish a long-term partnership. Together, they want to implement their vision of digital core production and thus deliver on the potentials of Foundry 4.0. At GIFA 2019, visitors were able to find out precisely what this means at the three partners’ respective stands.

In the production of modern, complex castings, it is important to achieve consistent quality in core production, which involves the interplay of several influencing factors and process variables. But it is only at the end of the production process, when you have a finished casting, that you can determine whether the process is able to deliver 100% of the required quality. Foundries would certainly benefit if they could detect possible deviations in advance as this would give them the opportunity to intervene in the process at a very early stage.

And this is precisely what simulation-based visualisations of core production achieve. They make process flow transparent and predictable and take as many process parameters as possible into account. In alliance, this is the vision that drives the new HA, MAGMA and Laempe partnership.

At GIFA 2019, the three partners unveiled their revolutionary concept in public for the very first time. The concept is built around a ‘virtual core shooter’.

On an interactive screen, visitors could adjust various parameters for the core shooting process and assess the results of the simulated core production in real time. As a result, they could see what impact their adjustments have on the core shooting process and, consequently, on core quality, answering questions such as: How does the sand height affect the shooting head? What is the impact of vent clogging or tooling cleanliness? At what pressure is the moulding mixture actually shot into the tooling cavity? Which machine settings need to be adjusted to change the tooling design from a single to a split cavity box?

Thanks to the software developed by MAGMA, the virtual core shooter is able to simulate the entire shooting process in milliseconds, including material flow and pressure conditions.

“With this patented new tool, we have been able to combine process simulation and real core production. The coupling of the moulding mixture properties with the core shooter and the current tooling allows us to holistically simulate the entire process. This means we can now guarantee reliable core quality. Due to the short computing times, it is even possible to integrate the simulation into a real-time operation of the machine,” emphasised Dr.-Ing. Jörg C. Sturm, Managing Director of MAGMA GmbH.

And the next step has also already been taken: In future, parameters relating to the sand-binder mixture will also flow into the virtual model to make core quality forecasts even more accurate.

“We will identify core defects that are not visible to the naked eye but nevertheless cause problems further along the process chain. explains Amine Serghini, member of the HA management team. Deformations during core storage, core breakage during casting and casting defects are often caused not by the binder itself but by parameters such as the storage time of the sand-binder mixture. A fresh sand mixture flows better, has better compactability and ensures less tooling deterioration and vent clogging. The virtual core shooter is used to forecast whether a sand mixture can still be used without leading to core quality issues,” explained Amine Serghini, a member of the HA management team.

The empirical data behind the direct simulations were gathered during tests at the HA Centre of Competence in Baddeckenstedt, Germany, on a state-of-the-art core Laempe shooter that is used in this Centre. This data allows important influencing parameters and their impact on the casting process in machine and tooling to be modelled accurately. The HA Centre of Competence is equipped with a wide range of technical possibilities and provides a valuable platform for partners from different disciplines to systematically advance innovations in joint development projects.

The technical implementation of a real-time, data-based system to control core production has become a reality thanks to the partnership between Magma, HA and Laempe and represents a revolutionary step towards Foundry 4.0. The promising approach opens up a world of new potentials for all three partners as they strive to provide their customers with intelligent solutions for optimised and robust core production at all times.