Large differences in temperature between two consecutive layers compromise build quality and can lead to build crashes, so you need a tool that allows them to analyze the surface area for each layer along with the heat distribution within a build. You can prevent warping by limiting the surface area of each layer and thereby controlling heat build-up. The Right Orientation for Successful BuildsĪ good part orientation is the first step to a successful build, barring warping or a premature termination of the build process. A number of advanced build validation tools analyze the build risks of a part and its support structures to help detect and avoid issues.
Iron cad structured vs innovative part software#
Materialise Magics software, core of our flexible software suite, is based on an in-depth understanding of the mechanisms behind metal AM, guiding you on the issues such as best part orientation and support generation. Software therefore plays a key role in the metal Additive Manufacturing process. How a design engineer positions a part and generates support structures has a huge influence on the success of a build. While it is critical to understand and consider the whole manufacturing process, from powder characteristics to design guidelines and process parameters, including post-processing steps, some of the main stumbling blocks linked to metal Additive Manufacturing are thermal stresses, deformation and shrinkage. A thorough understanding of how the metal Additive Manufacturing process works is therefore essential.
Iron cad structured vs innovative part trial#
Today’s market defines the initial learning curve as a two-year period characterized by trial and error experiments, build crashes, vaporized money and time, all mixed in with the occasional correct build. The Additive Manufacturing of metal parts can be challenging.
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