Esprit’s additive capabilities are the product of the team’s more than 35 years of experience in toolpath generation and they include the same intuitive user interface that users expect from the software. The new additive cycle offers users a full-spectrum additive solution, from CAD file to finished part. This product release includes 3-axis, 4-axis, and 5-axis DED support and is combined with subtractive machine programming capability within a single software package, thus supporting hybrid manufacturing. Esprit’s additive DED cycles include additive simulation and verification, as well as global support from Esprit’s technical teams.

DP Technology validated its post-processor through collaboration with major machine manufacturers and educational institutions. “For more than a decade, we’ve been working on additive manufacturing, including research on DED toolpath trajectories and AM thermal simulation. Esprit’s additive DED solution is the result of the close collaboration between DP Technology, the industry’s most trusted CAM solution provider, and Grenoble University, the world’s leading research institution on additive DED technology,” says Frederic Vignat, head of the additive department at Grenoble University in France.

As one of the main additive manufacturing processes, directed energy deposition (DED) uses a focused energy source, such as a laser or electron beam, to melt the material. The ability to control the grain structure of a part makes DED a good solution for the repair of functional metal parts. For example, DED is often applied to rebuild large, expensive, and high-wear components for aerospace, energy, or marine industries, such as turbine blades, drill heads, or propellers. DED is also one of the few metal 3D printing technologies suitable for integration into CNC machines to create a hybrid manufacturing solution. By mounting a deposition nozzle on a multi-axis machining system, highly complex metal parts can be produced faster and with increased flexibility.