Inspire Print3D simplifies the identification and correction of potential deformation, delamination and excessive heating issues before building a part. The below list of products are available as part of the Altair Student Edition. Reducing expensive trial and error by simulating part build, cooling, cutting and springback, Inspire Print3D delivers designs having the fewest supports, optimally oriented on the print bed. By capturing behavior independent of the printer type, with Inspire Print3D designers can evaluate and easily modify critical process variables. The advanced thermo-mechanical simulation enables design engineers to develop parts ready for additive manufacturing. ![]() Design alternatives can be quickly explored and evaluated without leaving the familiar Inspire user environment. We are glad it was the first word picked to ignite innovation in product design and manufacturing. We named our product Altair Inspire years ago to evoke exactly the same sentiment towards product design. ![]() ![]() Starting from either topology optimization results or an imported CAD geometry, support structures can be easily generated and optimized. Yes, that is the theme for this year’s RAPID-TCT conference, and no, I did not influence the RAPID-TCT committee’s choice. ![]() As a result, teams to cut product development and additive manufacturing costs by reducing material usage, print times and post-processing. Inspire Print3D accelerates the creation, optimization, and study of innovative, structurally efficient 3D-printed parts, providing a fast and accurate toolset for the design and process simulation of selective laser melting (SLM) parts.Įngineers can quickly understand changes to process or design that affect manufacturability, then export part and support structure geometry to major printer preparation software to produce the part. Efficient Design for Additive Manufacturing
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