VISI. Histórico de Versiones

A continuación encontrará toda la información detallada de las últimas versiones de VISI con las mejoras y nuevas funcionalidades introducidas.

VISI Version 2018 R1

VISI 2018 R1

2018 R1 release of VISI provides a wide variety of new and enhanced items of functionality for both CAD and CAM, specifically for the mould and die market.

New Mould Tool Module

VISI 2018 R1 introduces a new Mould 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.

The new Mould 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.

Project Design & Manufacturing Technical Reports

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.

Plastic Flow Warpage Prediction Module

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

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

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.

3D Waterline Milling

New adaptive stepdown capabilities can now manage variable Z steps for each independent area within the same piece being machined.

CAM Navigator User Interface Improvements

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.

Sharing process knowledge

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.


VISI Version 2017 R2

VISI 2017 R2

VISI 2017 R2 provides new and enhanced functionalities for both CAD and CAM processes, specifically designed for the mould and die market.

New Springback | CAD

When the sheet metal part is removed from the die, and the forming forces released, material elasticity will cause the part geometry to experience springback. The new Springback prediction functionality is designed to reduce the time and cost of a typical trial and error approach to solving this long-standing industry issue.

The Springback prediction tool uses the starting nominal part, material data and blank calculation to generate a second mesh of the product geometry including springback adjustments. The designer can then use the relative compensation tool to achieve a morphing on the original surface set to generate the compensated surfaces to produce an accurate sheet metal part. This will provide major benefits to the die market by reducing the time of the ‘design to manufacturing’ process and by reducing the cost of a typical trial and error approach to solving this long-standing industry issue.

New Safety zone visualisation | CAD

When a designer is validating the part for formability, a new graphical analysis representation mode will subdivide the results into six possible zones that occur during the forming process:

Strong Wrinkle Tendency - Slight stretch in one direction and compression in the other with material thickening. Wrinkles are very likely to occur.
Wrinkling Tendency - Stretch in one direction and compression in the other with slight material. thickening. Wrinkles may occur.
Low Strain - Minimal stretch or compression in either the major or minor directions.
Safe - Area below Forming Limit Curve where failure is not likely to occur.
Marginal - Area between the safe and fail zones where the forming process is marginally safe.
Fail - Area above Forming Limit Curve where splitting is likely to occur (localized thinning).

2.5 Axis Pocketing | CAM

The new 2.5 Axis Pocketing strategy provides toolpath quality improvements, an optimised toolpath on open features (shorter toolpath) and provides the ability to machine from a stock model. When the stock model is defined the new Pocketing strategy is able to identify the areas where it is necessary to remove the material and adapt the toolpath to produce passes only where necessary.

2.5 Axis Waveform | CAM

The new 2.5 Axis Waveform strategy (previously available in 3D roughing), delivers high speed machining technology to maintain constant tool cutting load, constant cutting feed rate, and smooth toolpath movements which avoid sharp changes in direction which maintains the machine tool’s velocity.

2.5 Axis Remachining | CAM

The new remachining strategy, based on the new Pocketing technology, inherits the same enhancements and advantages provided by the Pocketing strategy. The rest area recognition is achieved automatically based upon the reference operations selected. The computation of the rest material is using a new computation engine that is shared with 3 Axis CAM strategies.

3 Axis Enhanced Roughing - Remachining | CAM

The enhancements achieved on the Roughing and Remachining strategy provides a more reliable and higher quality toolpath. The residual material algorithm has been enhanced to provide a better quality residual area output. The result is an improved toolpath quality and an optimised toolpath in reference to the residual area computation.

New Electrode Machining | CAM

The new Electrode machining module automates the electrode design-to-manufacturing process. It benefits from collecting the manufacturing information added during the design phase, and automatically passing the data to the CAM cycles. This will significantly speed up the process of electrode manufacture and reduce the potential risk of possible input error.

As there are often a substantial number of electrodes required to be machined for each mould, the new Electrode machining module delivers major time saving benefits for the mould production.

Other important enhancements introduced in the latest VISI 2017 R2 release are:

  • New Product Launcher which is a customisable software starting window which provides access to the complete suite of installed VISI applications. The launcher also has dedicated areas for the users most commonly used tools which can be added by drag & drop, as well as displaying the VISI social media channels.
  • Improved user experience with high quality toolbars to support 4k monitors
  • Updated CAD translators to support the latest geometry formats
  • Improved Wire EDM technology and software fixes


VISI Version 2017 R1

VISI 2017 R1

Significant developments in CAD and CAM functionality in the latest release of VISI, from Hexagon, give users additional speed and quality throughout their design and machining processes.

  • Speed improvement to the picking process with support for dynamic ‘drag & drop’.
  • Dynamic zoom to and from an area on the screen by holding down the space bar. “This is particularly valuable to zoom in on a particular aspect of a large component on screen.”
  • Intelligent chaining for joining wireframe elements together.
  • Single right hand mouse click to confirm commands, instead of ticking a box with a keystroke.   

And for CAM, an update to geometry management means individual pieces are no longer limited by a specific project. “It gives greater freedom in picking the piece, obstacle or stock, allowing any combination. This is also used for picking faces and face lists, all managed in a much more user-friendly interface, and driven inside the operation itself. Everything is now linked to the operation, not the project, and all geometry is managed interactively, picking the specific pieces or faces that we want to machine.”

Auto Ballooning | CAD

Several auto ballooning enhancements have been made within the Assembly Manager, providing additional control when adding BOM ballooning within the plotview. These include automatic positioning using multiple axis and removal of duplicated balloons, providing clearer results.

Manufacturing Drawing | CAD

The creation of manufacturing drawing data has been improved by the addition of a number of additional view property settings.  To simplify the creation of cut away views of complex geometry “outbreak section depths” can be automatically measured and edited by on screen selection.


Model Properties in Modelling | CAD

Model properties can be set during the Modelling process.  VISI Product Support Manager John Cockerill says: “Any model manufacturing and purchasing data can be added and controlled by simply selecting the model geometry from the working environment.  Added data is automatically inserted into the Assembly Manager interface, providing a more interactive method of controlling modelling data.”


Mould Design | CAD

New functionality has been added to the Mould Design module, allowing the user to validate the effect of a cooling channel circuit.  Size and positioning can be effortlessly extracted from model geometry and inserted into the Cooling Validations step-by step workflow for a thermal analysis of a mould’s temperature conditioning system.



For VISI Flow modules, the precision of warpage calculations has been enhanced by adjustments within the filling & holding algorithms.  These adjustments take advantage of additional data within the material database, which has been increased with the addition on new material grades.


Strip Enhancements | CAD

For VISI Progress users, a number of Strip enhancements include the ability to manipulate a strip’s width, height and component angle from the graphics area, which simplifies the strip layout process.  In addition, calculated Shear / Bending / Flange stress data is provided for every individual step of a strip’s development.


Automatic Wire Points Creation for Punching | CAD

Also added for Progress users, is a new function for automatically creating wire points for tooling punches.  The diameter / position and multiple start points are all managed from the graphic area interface.  All created wire data is automatically recognized within the CAM and Wire modules.


CLS License Manager | CAD

Improvements to the CLS License Manager now give the ability to create specific profiles and options for each user operating across a multi-seat network.


Waveform Roughing | CAM

Hexagon’s powerful and game-changing Waveform roughing technology is included for VISI Machining. Waveform’s proven cutting strategies increase material removal rates and productivity, while prolonging tooling life. The high speed machining strategy maintains a constant tool cutting load by ensuring consistent tool engagement with the material.

Rest Roughing | CAM

On Rest Roughing, instead of having to create separate dynamic incremental stock based on the previous operation, VISI 2017 R1 handles the process automatically. “The user simply picks the previous operation, and the system automatically creates this stock within the operation.” This is invaluable for 3+2 work knowing that the correct stock will be used on the tilted operations.


2D Milling Profiling | CAM

Again, specific Hexagon Group technology – this time a new, specially-developed engine – is creating a new profiling strategy for 2D milling. John Cockerill says it improves reliability and output, and provides multiple options for cornering, used for keeping or removing sharp corners on profiles. Old profiling will be converted automatically, and there are improvements to speed, obstacle and cutter compensation management, along with intelligent collision checking.



VISI Version 2016 R1

VISI 2016 R1

VISI 2016 R1 CAD delivers a number of enhancements to the graphical user interface (GUI), and major updates for sketching and element editing. Other significant items include developments to Parts Revision, Snapshot, a new combined view/section within the plotview and updated CAD translators.

The development focus for VISI Mould and VISI Progress was aimed at design efficiency and user experience. Mould makers will see significant enhancements to cooling, component libraries and a new tool for lubrication grooves. Die makers will benefit from major 3D strip upgrades and 'instance' support for punches.

VISI 2016R1 has seen CAM development focus on toolpath reliability, calculation time, simulation and tooling databases. The improvement of the user experience continues with consolidation of commands to simplify toolpath generation and maintain consistency across 2D & 3D toolpath dialogue boxes.

Migration tool / Update settings | Modelling

An enhanced migration tool is available to automatically update Settings/Configurations from a previous version of VISI. This tool allows the update of all relevant configuration files, profiles, custom settings and libraries, databases, CAM settings (tool databases, machine tool configuration, compass configurations), Mould/Progress libraries and others (please refer to the on line help of this tool for a complete description). This tool can be executed at the end of the installation or by running the shortcut installed under the VISI 2016 R1 application within the START menu.

Network Saving | Modelling

VISI 2016 R1 delivers significantly improved speed when saving files across the network. The system will initially save a local file (from where you are notified when complete, and can continue to work) before saving the file to the desired network location as a background operation.


User Interface / Picking / Graphics | Modelling

Quick Access Toolbar management available on the top bar - A new quick access toolbar is available above the top bar providing access to the standard/system functionalities. Updated icon sets relative to product categories are also available.
New graphical icons at the top of the GUI to Apply/Cancel/Pg Down/Pg Up which allow you to step backwards & forwards through the current operation.
New Brush selection by open and close polyline.
Improvements to the Enhanced pick provides the ability to capture relevant points on virtual intersections, moves snap point along a virtual line (parallel to axes, perpendicular to segments, tangent to circles, etc ).
Hidden line removal and Hidden lines in different style modes have been enhanced and can be used completely during all modelling operations. Options are available in the Settings command for the colour, transparency and style of the hidden lines. New Antialias management improve the graphics representation to avoid the segmentation of lines.
The ability to highlight a relevant point and type an exact offset. When the cursor is on a relevant point, it is possible to simply enter the values for the offset or distance point when moving along a relevant direction.
Contextual icons on the M2 list - Pressing the right mouse button (M2) or the mouse wheel when inside the command will display the relevant icons typically available in the left-hand icon bar, at the position of the mouse cursor. This simplifies access to the picking options and minimises the cursor movement.
Mouse buttons configurations can be adjusted to configure the most commonly used graphics movements to specific mouse buttons and actions.
Speed enhancements when saving files on a network drive. All files are first saved locally (in the tmp folder), from when it is possible to continue to work with the WKF. After this operation, a second thread is started to copy the file onto the network in the background.


Edit Elements & Sketching | Modelling

New Edit element command for the modification of wireframe entities. Double click on the wireframe entity to enter Edit mode. This can be used on segments, circles, arcs, curves, profiles, and polylines.  This command allows the modification of shape, position and dimensions.
Sketch circles and Sketch lines enhancements - These commands have been improved using the new enhanced pick concept where the potential results are graphically displayed, and can be selected by using the Space bar. Combined selection between Elements and Points has been integrated in these commands.
New option to create a Segment/line tangent to two curves within the Sketch command.


Parts Revision | Modelling

Enhancements to the Parts Revision manager include the ability to define the revision field as a Number, String, or String+Number. Other improvements include the ability to use the Part revision code as part of the file name when saving Plotview pages, the ability to plot a table with the complete list of part revisions.


Snapshot | Modelling

Improvements to the Snapshot manager include the ability to force a white background for image production, and the ability to work in Plotview mode and copy the snapshot to the clipboard ready to paste in other documents. It is now possible to save the snapshot list as separate image files (Bmp, Jpg, Png, Tif).


Automatic Wire Points Creation for Punching | Modelling

Enhancement on the Plotview Manager - Views, sections and details (and relative hierarchy) are now shown in the tree of the Plotview manager Pages
View information is now displayed in the properties zone relevant to the selected node in the tree. For example, if selecting the page node, only the relevant information of the page is displayed, while if selecting a view, only the relevant information of the view is presented.
New Outbreak section in Plotview - The ability to create a portion of a section inside a View (to create a combined view/section). It is also possible to determine the outer boundary format and the depth value for the section.
Other Plotview enhancements include :
 - Improvements on the arrows position for partial sections
 - An option to show only the layers or the parts used for view creation within the view properties dialogue
 - An option to select the parts in 3D environment within the view properties dialogue


CAD Interfaces | Modelling

In addition to continuous quality improvements and enhancements on CAD translators, the main new capabilities for 2016 R1 are:
- Presentation of file Preview increased performance
- 3DPDF Writer enhancements for saving models in this format (performances, white background, fit on the screen)
- DXF/DWG Reader general refurbishing
- DXF/DWG update of Teigha libraries to 4.01
- CATIA V5 Reader permits hole attributes mapping
- Inventor support of 2016 files
- UG Reader to support Layer Categories for Parts
- Import/Export -  Unicode Support for 3D translators


Cooling | Mould

CAD transformation commands are now automatically notified and managed within the Cooling system. When selecting a cooling channel during a translation operation, the system automatically selects all of the relevant the cooling parts (solid, 2D and standard elements). After the CAD transformation (including copy), the system will automatically update the relative cooling structure within the cooling toolbox.


Lubrification Grooves | Mould

A new Lubrication Groove command has been developed for 2016 R1. This command allows to creation of lubrication grooves on the selected face of the plate using builders that provides the user with a number of shapes & customization parameters.


Parts Replacement in Instances Management | Progress

This improvement applies any modification to the original master part geometry to be automatically added to the 3D strip without any rebuild, significantly saving time during the process. This new methodology provides an automatic associativity between the reference parts and the strip design. It is also possible to define Punches in the Strip using the instances management. This means that punches can now be managed as instances within the project (including the ability to extrude punches). Therefore any modification to the parent geometry will be replicated on all instances.

Multiple strip analysis - Using 2016 R1 it is now possible to review multiple strip parameter configurations as a separate 3D strip design. This is particularly useful during the estimating phase, where the user may work on more than one strip project to evaluate the best solution.


Elements Configuration | Standard Elements

An updated tool to edit 3D component libraries provides additional capabilities for easy catalogue selection, easy editing of element properties and better element and Rule table editing. There are also new options when inserting standard components to “Remember Settings” which allows the user to define all parameters within the insertion mask, and recall for a different scenario.

Material Database | VISI Flow

Completely revised material databases are available for VISI 2016 R1. Any grade has been verified using the TESTISO reference model so to provide the correct linear shrinkage values. The following databases have been reviewed and updated at present:

  • ABS.mdb
  • ABS-BLENDS.mdb
  • ASA.mdb
  • COC.mdb
  • COPOLYESTER.mdb (new)
  • IONOMER.mdb
  • MABS.mdb (new)
  • LCP.mdb
  • PA46.mdb
  • PA6.mdb
  • PA66.mdb
  • PA11.mdb
  • PA12.mdb
  • PA-OTHER.mdb
  • PPA.mdb
  • PLAST.mdb (the generic materials of the above families)

Calculation Time Improvements | CAM 2.5D

2.5D CAM operations are now supported by the process manager. This allows the user to continue to work with VISI during the toolpath calculation build. Please note, when operations are generated by running the Compass command, the toolpath build from the process manager is not supported; therefore the system is locked until the toolpath build is complete.

Improved Linking | CAM 2.5D

VISI 2016 R1 introduces an improved linking algorithm to minimize rapid movements, significantly reducing the number of entries into the stock material. The standard roughing option optimises the cut direction (climb / conventional) and also mills the island contours. This new linking algorithm links all different zones, with a shorter path. The combo-box “Stay a depth” activates the link optimization when the step-over method “In to Out” and “Out to In” are used.
The parameter “Max link distance” is only required when the step-over method “In to Out” is used. The value represents the max distance to connect 2 points with a link movement. Lower values could increase the number of rapid movement for the Z levels.

Enhancements on Zigzag method (Pocketing, Facemill, Milling) | CAM 2.5D

VISI 2016 R1 introduces new functionality to create the contouring step at the end of a zig-zag roughing pass. In previous versions, this was only available before the zig-zag roughing pass. When the zig-zag roughing is executed before the contouring step, a ramp approach is required and automatically created. Please note that the ramp approach follows a backward path along the zigzag path, to reach the Z level to start the roughing pass.

New Engine (64bit) | CAM 3D

VISI V2016 R1 introduces an updated 3 axis calculation engine. This new engine is fully 64-bit compliant and therefore benefits from the performance of modern CPUs. In addition, VISI is able to run multithreads for a single toolpath calculation. This means that a single toolpath build can be split into multiple parallel calculations, significantly reducing the total build time (this is managed automatically by the CAM engine). A good example of this is the Waterline strategy in helical mode. 
For geometry selection, the surface group and list preparation has been improved thanks to a new simplified user interface. The number of mouse operations has been reduced and the preparation process now follows a more logical sequence. 
Finally, it is no longer mandatory that the stock belongs to the project in order to be selected. It is now possible to select any stock available in the model tree.

5 Axis strategies (and 3 Axis ISO Machining) | CAM

For 2016 R1 two Surface Selection modes are now available: the surfaces list mode (default) and the single surfaces selection mode (as previously available on V20 and before). 
If a 5 axis operation comes from a work file generated with version lower than V21, all the selected surfaces will be edited automatically by using the single surfaces selection mode. For the selection of new surfaces, the list mode is activated by default.

Hexagon Tools Quick Editor | CAM

VISI 2016R1 checks all entries in the cutting condition parameters of the tool database. If some values are not defined it does not allow the user to confirm and close the dialog box. The reason is that VISI uses these values for the toolpath calculation and therefore if these are not available the toolpath build could fail or produce unexpected results.
The aim of this utility is to offer a simple solution to automatically complete the missing entries in the general and specific cutting conditions. This utility can be executed from within Hexagon Tools.

Simulation | CAM

The analytic material removal technology has been completely reworked to increase performance and quality.
The comparison tool, has been totally rewritten to increase quality and performance. It is now integrated into the main graphical window.
Improved mesh export - For a large mesh model, small details can have a significant impact on your simulation. High-quality details can highlight the most important cuts but at the same time the entire simulation process can become slower due to the fact that large data is being processed. Different levels of quality are also now also in the exported mesh.

Toolpath Enquirer | CAM

This new command allows users to perform different types of analysis on the selected toolpath. For example it is possible to highlight linear toolpath elements that are shorter than a given length or to verify if there are vertical arcs in the toolpath.

Post Processor | CAM

Improved sub-program management for 2.5 Axis operations.  Any equal Z levels can now be transformed into a NC sub-program, which is useful to manage modifications quickly on a CNC machine.

Wire EDM | CAM

Wire EDM developments include and updated 64bit toolpath engine, improvements to the 4 axis offset, support for M45 (Drain Tank) for the Fanuc CNC, which is useful to thread the wire more successfully.
Finally the Automatic Feature Recognition engine has been improved to find constant tapered features (while on V21 all conic geometry were recognized as 4 axis features).