e-Xstream engineering, an MSC Software Company, developer of Digimat, the leading nonlinear multi-scale material and structure modeling platform, announced the latest product release of Digimat 2017.1 at JEC World 2017 (Hall 5A/C68). Digimat continues to provide a leading solution for the accurate and efficient modeling of multi-scale material and structures, by extending its range of applications and continuously improving its overall workflow efficiency.
Digimat for Additive Manufacturing
Building on its large experience with polymer modeling, with Digimat 2017.1, e-Xstream is introducing the first simulation chain for additive manufacturing of polymers, Digimat Additive Manufacturing (Digimat – AM). Additive manufacturing of plastics and composites is evolving from rapid prototyping to industrial production. Printer manufacturers, material suppliers, and end-users need predictive simulation tools to bring the additive manufacturing efficiency and performance to the next level required by the industry. Digimat- AM has already been recognized with a JEC Innovation Award in the software category for its innovation and market potential.
Digimat-AM, the latest edition to the Digimat platform, is the ultimate simulation solution for manufacturing process of Fused Filament Fabrication (FFF), Fused Deposition Modeling (FDM) and Selective Laser Sintering (SLS) of reinforced materials. For printer manufacturers and end-users, the part fidelity is the top challenge to overcome. Digimat-AM allows the engineer to predict warpage and residual stresses of a polymer part as a function of the manufacturing process parameters. With Digimat-AM, users can further optimize the process and minimize the part deformation right at their fingertips. Virtual engineering is the solution to minimize printing trial and errors because it enables the user to explore the process sensitivity to manufacturing parameters.
By applying multi-scale material modeling techniques to the additive manufacturing of polymers (unfilled and reinforced), Digimat's virtual material compounding and characterization is a key enabler for customers developing new materials. Virtual engineering allows the engineer to significantly reduce physical tests, understand the key parameters driving the material's behavior, and easily create new material systems, such as lightweight lattices.
Digimat's latest release not only opens new horizons and a new way of designing but also brings some nice additional features. Digimat material model reverse engineering capabilities have been extended for creep and crash performances to better support material engineers. Structural engineers now benefit from significant CPU reduction when simulating the as-manufactured performance of MuCell® components, or when simulating creep of plastic parts.
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