Description: HSMWorks powerful plug and integrated CAM software solution is Salydvrk. It provides capabilities that will ultimately increase your productivity. This plug-in connection and proper coordination between the models made by the Solid Framework establishes processes and machines. When you make changes in the design model. At the same time, these changes are automatically reflected on the map will be model and toolpath. The program benefits from parallel. This plugin uses the optimal strategies of the Perth minimize cutting and the cutting path may be the most optimal. This plug-in Salydvrk installed, so you extend the capabilities of this plug-in features application base Salydvrk too are an example of the model and identify conflicts may analyze the pressure between the parts and features that environment Salydvrk on gives you . The plugin supports a variety of different codes for CNC machine tools at your disposal to evaluate the model and using it possible to simulate the operation of milling, drilling and cutting, etc. is allowed.
Features and HSMWorks: -The possibility of milling 2. 2.5D -Optimization of consumables and reducing final fling -Take advantage of several different codes for CNC machines -Ability to simulate and evaluate the results -Toolpath simulation are possible -The possibility of drilling and drilling operations -The machining 3D, 3 + 2 and 5-axis
System Requirements: -Autodesk HSMWorks 2020 supports Microsoft Windows 7 64-bit and Windows 10 64-bit. -HSMWorks 2020 is compatible with the 2017, 2018, and 2019 versions of SOLIDWORKS.Whats New: The following changes have been made in the current update (2020.1):
-This is the first update which is being delivered as a patch rather than a full installer, which will minimize download and install time. The same patch can be applied for both Premium and Ultimate installations.
Milling Toolpaths: -Improved Adaptive for tighter model contours; it now finds a starting point on the stock boundary. -Improved start entries for Adaptive Clearing toolpaths so that the toolpath starts in corners/endpoints rather than in the middle of a stock line. -Fixed an issue where calculating a 2D Adaptive toolpath with rest machining from a face selection could result in a large area being machined. -Fixed an issue in Adaptive where using a ballnose cutter as a reference tool was giving the wrong toolpath. -Fixed an issue where preserve order was not respected in 2D Profile toolpaths. -Fixed an issue where 3D Adaptive Clearing with rest machining can fail with complex remaining stock. -Fixed several issues in which the toolpath computations for Adaptive Clearing could fail on Mac. -Fixed a problem in Contour toolpaths where ramps might not be connected to their cutting moves, resulting in an unexpected lift and plunge to cover the gap. -Fixed an issue that introduced unnecessary retracts in Ramp operations. -Fixed an issue which caused irregular cutting passes for Scallop toolpaths. -Fixed an issue where a Constant Scallop toolpath might not calculate when up/down milling and 'other-way' linking was enabled. -Removed the "Shoulder Length" and "Taper Angle" parameters from the Rest Machining dialog for 2D Adaptive. They are not applicable in this context. (#10594) -Fixed a problem where retracting Z levels were machining areas that had already been cleared in lower levels.
Turning Toolpaths: -Implemented toolpath verification, simulation and NC code generation for general and boring turning tools when angled in the tool library or by using the tool orientation parameter in facing, profiling and chamfering operations -Fixed an issue where turn facing, profiling and chamfering operations with a right-facing angled tool with the angle specified either in the tool library setup or in the tool orientation section of the operation were simulating incorrectly as well as outputting incorrect NC code -Fixed an issue where a grooving operation could fail if the back and front Z limits coincided with the extents of the groove geometry. -Fixed a memory leak for some turning grooving jobs.
Tool Library: -Fixed an issue where turning tools with boring holders were previewed incorrectly in the tool library and modeled incorrectly in simulation
Post Processor: -Functionality has been restored to the alert, promptKey, and promptKey2 API calls. These now work as before, but are supported only on Windows. -Fixed a regression where tool.getExtent() could return an empty bounding box, causing the setup sheet to incorrectly scale the tool image. -Added a mechanism to define which rotary axes support TCP in the post processor. This simplifies the code needed to disable TCP for a single axis. -Added new global function 'isNewWorkPlane(section)' which returns true if the passed section requires new workplane calls. This simplifies the 'newWorkPlane' checks that are typically done inside of post processors -Added global variables 'minimumProgramNumber' and 'maximumProgramNumber' to post processor. -Post properties that you set when using a post processor are now saved to a file. This allows using the post processor on other computers with confidence that the previously used properties will continue to be applied. -Added the onManualNC function that will handle all Manual NC commands, and the expandManualNC function that handles all Manual NC commands using the historical method. -Fixed the behavior of mapToWCS, so that it can be changed multiple times in the post. -Added cancelRotation and cancelTranslation methods.
NC Editor: -Updated HSMEdit to fix an issue in which the display of text was corrupted. -Updated HSMEdit to correct a problem with the backDescriptionting function.
API: -Improve the performance of API functions setObjectParameter and setObjectToolView by removing an unnecessary call to updateOperationManager.
Licensing: -Fixed an issue in which administrator privileges were required when activating a license.