Desktop Metal was created to change the way companies bring
products to market with metal 3D printing. Current metal 3D printing is often
too expensive or industrial for many potential users. Fundamentally different
approaches were needed to offer a different way to produce metal parts for
prototyping and in production.
That’s where Desktop Metal comes in.
Join us for an in-depth look at the Desktop Metal workflow from
3D model all the way to a finished printed part.
For more information,
visit our website here or contact us via
email at firstname.lastname@example.org
Fast, easy to use lightweighting for structural analysis is now only a few clicks away thanks to the introduction of Topology Optimization in ANSYS 18.
Engineers who use Finite Element Analysis (FEA) can reduce weight, materials, and cost without switching tools or environments. Along with this, Topology Optimization frees designers from constraints or preconceptions, helping to produce the best shape to fulfill their project’s requirements.
Topology Optimization also works hand-in-hand with Additive Manufacturing; a form of 3D printing where parts are designed, validated, and then produced by adding layers of material until the full piece is formed. Pairing the two simply allows users to carry out the trend of more efficient manufacturing through the entirety of their process.
Join PADT’s simulation support manager Ted Harris for a live presentation on the full
benefits of introducing Topology Optimization into your manufacturing process. This webinar will cover:
A brief introduction into the background of Topology Optimization and Additive Manufacturing, along with an overview of it’s capabilities
An explanation of the features available within this tool and a run through of it’s user interface and overall usage
An in-depth look at some of the intricacies involved with using the tool as well as the effectiveness of it’s design workflow