VISI 19

June 01, 2011

Vero Software, a leading provider of CAD/CAM/CAE solutions for the tooling industry, are please to announce the imminent release of its flagship product VISI 19. Due for a Summer release, VISI 19 represents another substantial release with many new features in all areas of the product including core 3D CAM development and a continued focus on tool design and manufacture.

VISI Modelling is the base platform for all products and enhancements include an updated GUI with improved user interaction, new blending capabilities, improved annotation, advanced profile offset, graphical texture mapping and support for the increasingly prominent JT Open file format.

VISI Mould enhancements include an a new Assembly Tool Manager to handle multi-level tool structures, and provide the ability to generate specific tree hierarchy structures for the creation of partial BOM lists. VISI Flow development include a new part quality tool with potential remedy suggestions for each problem area and improved filling analyses and flow balancing due to the fine tuning of melt compressibility at end of the filling phase.

For sheet metal stamping, VISI Progress enhancements include three new dedicated routines to manage complex springback based on results from CMM machines, 3rd party FEA systems and bend section geometry. Each routine includes skimming capabilities to reduce point clutter and allows the operator to define an additional percentage to over compensate for the springback deformation.

VISI 19 represents a release where significant resource was allocated to major CAM development. A number of new machining algorithms have been introduced that will greatly benefit both Vero customers and OEM partners. New CAM routines include 'HM Rib Cutting' for the machining of very thin walls, 'Deep Cavity Machining' for the automated splitting of roughing and finishing toolpaths into separate Z ranges based on collision checking between the piece and toolholder, providing greater rigidity, reduced vibration and increase tool life.

A new 'Core Roughing' strategy has been developed which generates an improved toolpath shape when working from outside a component. The result is a flowing toolpath that allows the machine to run near to its maximum potential when machining core components. A new 'HM Constant Z' toolpath has been introduced to complement the existing steep & shallow toolpath. This combined finishing routine replaces highly sophisticated 3D pocketing calculations with 2D projection calculations for shallow areas and can dramatically reduce calculation times. Finally a 64Bit engine will boost performance and allow users to benefit from maximum RAM usage.

VISI PEPS-Wire development has continued with new technology added and further migration of historic PEPS capabilities to the new VISI platform. These include slug retention, feature recognition for land and taper features, CT Expert integration, VDM file import and pocketing with finishing allowance, a new routine that allows the user to partially pocket an aperture by specifying the remaining stock left to cut. This dramatically improves wire usage by keeping fresh air cutting to a minimum.

Related Glossary Terms

  • computer-aided manufacturing ( CAM)

    computer-aided manufacturing ( CAM)

    Use of computers to control machining and manufacturing processes.

  • land

    land

    Part of the tool body that remains after the flutes are cut.

  • toolholder

    toolholder

    Secures a cutting tool during a machining operation. Basic types include block, cartridge, chuck, collet, fixed, modular, quick-change and rotating.

  • toolpath( cutter path)

    toolpath( cutter path)

    2-D or 3-D path generated by program code or a CAM system and followed by tool when machining a part.

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