Use the simulation to determine the correct size and location of risers, ensuring they feed the thick sections properly, preventing shrinkage-related tearing. 3.3 Optimize Cooling Channels (Die Design)
To prevent Cimatron 16 hot crack or resolve existing issues, consider the following strategies: cimatron 16 hot crack
: New ability to import cutters and holders directly from STEP, IGES, and STL files. Update and Stability Reports Use the simulation to determine the correct size
Thermal shock is a primary driver of solidification cracks. The Cimatron What's New Guide highlights advanced features: The Cimatron What's New Guide highlights advanced features:
: Machining profiles are applied systematically based on the initial EDM configuration. This ensures smooth transitions from roughing to fine burning stages, minimizing the depth of the brittle recast layer.
Eliminating Hot Cracks in Die Casting: A Guide to Cimatron 16 Simulation & Prevention
Hot cracks typically form in the "mushy zone" (semi-solid state). Common triggers include: ScienceDirect.com Thermal Gradients: Uneven cooling rates between thick and thin sections. Mechanical Restraint: