Intelligent lightweight design for maximum efficiency
Services, research, consulting, and training
Expertise & benefits
Intelligent lightweight design begins where the traditional development process reaches its limits.
Lengthy feedback loops, cumbersome model modifications, and subjective component design reduce agility and robustness and lead to heavy components.
With us, this is a thing of the past.
Cost & sustainability
Lighter components directly result in lower manufacturing costs as well as reduced secondary costs (delivery, recycling, sizing of other components). This efficient use of manufacturing resources also directly improves the ecological footprint.
Cost & sustainability
Lighter components directly result in lower manufacturing costs as well as reduced secondary costs (delivery, recycling, sizing of other components). This efficient use of manufacturing resources also directly improves the ecological footprint.
Cost & sustainability
Lighter components directly result in lower manufacturing costs as well as reduced secondary costs (delivery, recycling, sizing of other components). This efficient use of manufacturing resources also directly improves the ecological footprint.
Performance
The goal of an optimization is not always a lighter design. Our end-to-end process also supports the achievement of target values and requirements. A fast, precise, and manufacturing-ready transfer into CAD ensures that the optimization results are feasible in practice.
Performance
The goal of an optimization is not always a lighter design. Our end-to-end process also supports the achievement of target values and requirements. A fast, precise, and manufacturing-ready transfer into CAD ensures that the optimization results are feasible in practice.
Performance
The goal of an optimization is not always a lighter design. Our end-to-end process also supports the achievement of target values and requirements. A fast, precise, and manufacturing-ready transfer into CAD ensures that the optimization results are feasible in practice.
Manufacturability
We take into account the requirements of all common manufacturing methods during component design. The mass impact of manufacturing constraints is minimized by considering them early in the optimization process.
Manufacturability
We take into account the requirements of all common manufacturing methods during component design. The mass impact of manufacturing constraints is minimized by considering them early in the optimization process.
Manufacturability
We take into account the requirements of all common manufacturing methods during component design. The mass impact of manufacturing constraints is minimized by considering them early in the optimization process.
Development time
Early interdisciplinary simulations (NVH, durability, stiffness, and crash) as well as agile adjustments of the models in CAD and CAE automatically lead to shorter development times.
Development time
Early interdisciplinary simulations (NVH, durability, stiffness, and crash) as well as agile adjustments of the models in CAD and CAE automatically lead to shorter development times.
Development time
Early interdisciplinary simulations (NVH, durability, stiffness, and crash) as well as agile adjustments of the models in CAD and CAE automatically lead to shorter development times.
“Perfection is achieved not when there is nothing more to add, but when there is nothing left to take away.”
“Perfection is achieved not when there is nothing more to add, but when there is nothing left to take away.”
Antoine de Saint-Exupéry