Before printing, files often need cleaning. Magics provides industry-leading mesh repair tools to: Automatically fill gaps in mesh data.
Materialise Magics | Validação e preparação para impressão 3D
In the world of additive manufacturing, Materialise Magics 19.01 (64-bit)
Whether you’re repairing broken scans, nesting a day’s production, or generating sacrificial supports for a titanium impeller, Magics 19.01 64-bit delivers. It asks for little: a dongle, a reasonable amount of RAM, and a user who knows the difference between a shell and a solid. In return, it offers the kind of dependable, no-surprises performance that makes additive manufacturing feel less like magic and more like science. magics 19.01 64 bit
Materialise Magics 19.01 (64-bit) is a professional data preparation and STL editing software for additive manufacturing. Released by Materialise
New marking tools and profiles offer greater flexibility for creating support structures, including a specific Tree Supports module for specialized applications like jewelry making.
: Includes simulation features to detect potential failures before they occur, helping to lower scrap rates. Advanced Editing Before printing, files often need cleaning
: The 64-bit architecture is designed for modern Windows systems, typically requiring at least 16 GB of RAM to handle complex industrial models effectively. Primary Uses
Positioning, nesting, and supporting parts for printing.
, which are ideal for jewelry makers and industrial metal applications to allow easier part clean-up with specific break-off points. Support Generation (SG) Profiles: It asks for little: a dongle, a reasonable
: Beyond repair, Magics allows for direct modifications on STL files, such as hollowing parts to save material, adding lattices for weight reduction, and applying 3D textures or labels.
stands as one of the most reliable, foundational iterations of the industry-standard data preparation and STL editing software for additive manufacturing. Developed by Materialise , this version bridges the gap between raw CAD files and industrial 3D printers. Moving to a native 64-bit architecture unlocks the computational power required to manipulate massively complex 3D meshes, dense lattice structures, and multi-part print beds without exhausting system memory.