VISI CAD/CAM 2018 R1 - BLANK VISI CAD/CAM 2018 R1 - CAM VISI CAD/CAM 2018 R1 - FLOW VISI CAD/CAM 2018 R1 - MOULD

Innovative New Mold Design Tool Launched In VISI 2018 R1

The latest release of VISI, from Vero Software, provides a wide variety of new and enhanced items of functionality for both CAD and CAM, specifically for the mold and die market.

VISI 2018 R1 introduces a new Mold Tool module based on VISI’s Assembly-Ng technology. This redeveloped module provides greater flexibility when constructing supplier and non-standard tool configurations. Customisable templates, including the management of blank and predrilled plates, allow for easy tool layout creation and enhanced editing at any stage of the design process.

Marco Cafasso, VISI Product Manager, says: “The new Mold Tool provides a greater level of flexibility for both tool creation and advanced editing. This allows for adjustments to be made at any stage of a tool designs development. All assembly components are automatically updated when plate adjustments are made including component cavity manufacturing data.”

The ability to create project design and manufacturing technical reports have been included within the systems snapshot manager using data captured throughout the CAD and CAM project stages.

Further enhancements have been made within the plastic Flow warpage prediction module to improve result accuracy for complex technical polymers. These improvements have been achieved by a complete revision of the algorithms for the Holding phase. Pressure and flow rate calculation adjustments combined with the new shape solver, significantly improve the performance by reducing the calculation time up to 40 per cent.

Sheet metal developments in the progress strip development area and blank prediction include the ability to manage constraints of specific faces of a blanked component. It is also possible to define the face constraint in X or Y, or in both directions, which is particularly useful for designers who want to blank only specific area’s of a model for step by step stage unfolding. In addition, the process of managing strip layouts using double component geometry has been enhanced to reduce the development time of a 3D strip design.

CAM developments include faster geometry preparation, and an enhanced 2.5-axis chamfering strategy which provides many quality updates including intelligent approach and retract points, advanced obstacle management, and significant speed improvements.

For 3D waterline milling, new adaptive stepdown capabilities can now manage variable Z steps for each independent area within the same piece being machined.

User interface improvements to the CAM navigator will see the build process status on the operation itself allowing the process manager to be switched off if required. Tool sheet reports have been updated where the user can benefit from the enhancements to the snapshot manager. In addition, or anyone requiring hole information generated from the feature recognition, there is also the added benefit of exporting the data to csv files for external use.

Finally, sharing process knowledge is key to tracking the digital thread throughout the entire manufacturing process. A new VISI-to-PC-DMIS interface enables PC-DMIS to read the native VISI CAD file directly with annotation and points previously defined in VISI loaded automatically into PC-DMIS to be used for quality control purposes.

 

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