Simulation-driven design for additive manufacturing: how digital engineering increases productivity

At cross-ING, we support companies in utilising the full potential of additive manufacturing. We see time and again that the key to success lies not only in the printing technology itself, but above all in the design, and this is where simulation-driven engineering makes the decisive difference. Our latest  SimScale-User Report impressively demonstrates how companies can optimise components, reduce costs and drastically shorten development times through simulation-driven design.

This progress is made possible by the use of advanced/modern/specialised design and simulation software. This reduces iteration cycles and enables targeted optimisation.

What does this mean for our customers?

At cross-ING, we are observing the same trend: simulations are moving the starting point of optimisation far forward - into the digital world. We support our customers in this, particularly in the area of additive manufacturing design,

• design components in a functional way,

• Implementing design for additive manufacturing,

• and drawing conclusions about manufacturability, performance and costs at an early stage.

Our conclusion:

If you want to use additive manufacturing efficiently, there is no getting round simulation-driven design. The key is not simply to print existing geometries, but to utilise the design freedom of 3D printing in a targeted manner - with the help of digital tools and interdisciplinary engineering expertise.

Are you planning to develop additively manufactured components? Our experts in the Competence Center Additive Manufacturing Design will support you from the initial design concept through to production-ready implementation.

Contact us: amdesign@cross-ING.ch

*Translated by Deepl.com