Ultrasim® – CAE Competence for Your Innovative Components
Ultrasim® is the versatile and flexible CAE competence for your innovations using BASF plastics. Our calculation of component concepts on a virtual basis starts with appropriate materials and adequate material models, ranging from the virtual prototype and ideal manufacturing process to the finished mass-produced component.
With Ultrasim® you can tailor your components for specific requirements – for efficient, lightweight components subject to high levels of stress and for your long-term market success.
The modern calculation of thermoplastic components makes high demands on the developer. In the context of manufacturing process, part geometry and material only an integrated approach can lead to the ideal component.
Plastics reinforced with short glass fibers in particular have anisotropic properties depending on how the fibers perform in injection molding. Modern optimization methods support the part design and can improve it in every phase of its development. A completely new numerical material description can take into account the typical characteristics of the plastic in the simulation.
Are you looking for a way to calculate your component correctly AND with the ideal material? Then Ultrasim® is the key to your success.
As our strategic partner, you can use this application bonus in each development phase of your demanding components made of our thermoplastics. Set the trends in your business with us – Ultrasim® can be a pivotal factor.
When it comes to freedom of design and cost savings, plastics are often the solution.
We are more than a raw material manufacturer that can supply innovative plastics that meet time and quality requirements. Ultrasim® is an important building block in a flexible business model that can be tailored to individual customer requirements. Weight and cost savings are just as important in the automotive industry as in the electrical/electronics sector and many other industries – Ultrasim® can make it happen quickly and reliably.