Buy cheap Autodesk HSMWorks Ultimate 2019 R4 for SolidWorks 2016-2019 x64
|Autodesk HSMWorks Ultimate 2018 R3.42644 for SolidWorks 2014-2018 x64||$75|
|HSMWorks 2017 R1.41441 for SolidWorks 2010-2017||$75|
|HSMWorks 2016 R4.41148 for SolidWorks 2010-2017||$75|
HSMWorks provides a fully integrated CAM solution for SOLIDWORKS, allowing you to get up to speed and become productive within minutes using familiar tools and workflows.
Full associativity with SOLIDWORKS model
HSMWorks allows you to maintain full associativity between the SolidWorks model and machining. Design changes in the CAD model get automatically updated in downstream data such as drawings and toolpaths.
The HSM Advantage
Take advantage of latest workstation technologies to achieve superior performance, especially when working on large or complex designs. Multiprocessor/multicore support speeds up toolpath generation on supported hardware. The distributed CAM server maximizes your computing power using idle PCs on the local network to reduce toolpath calculation time.
This advanced roughing strategy provides efficient, high-volume material removal using constant tool engagement and optimized cutter paths.
Take advantage of several CNC code-specific functions, including line numbering/renumbering, XYZ range finder, and file compare. Features a DNC link for reliable RS-232 communications with a variety of CNC controls.
Simulation and Verification
Visualize material removal using interactive animation with HSMWorks advanced simulation and verification tools. Ensure accuracy of results even before cutting metal, boosting productivity and cutting down material waste.
Stock and toolpath simulation
See stock being removed and automatically check for shaft and clamp/fixture collisions. Easily inspect generated toolpaths with the integrated backplot and inspection tool.
Milling machine simulation
Machine simulation detects collisions and near misses between all machine tool components such as axis slides, rotary tables, turrets, spindles, tool changers, and fixtures. HSMWorks uses a SOLIDWORKS model of your machine tool to detect potential collisions, making it easy to modify or build new machine configurations directly inside SOLIDWORKS.
2D / 2.5D Milling
2D machining can range from very basic to highly complex operations. HSMWorks solutions include the tools you need for precise control over all aspects of 2D machining, including lead in/out and transitions between passes.
Control lead-in and lead-out with or without tool compensation. Choose multiple roughing and finishing passes and multiple depth cuts for any contour. Machine open and closed contours without creating additional geometry, and eliminate sharp motion with corner smoothing.
Drilling and hole making
HSMWorks includes powerful tools for generating drilling, counterboring, and tapping operations. Both standard and customized cycles are supported for all point-to-point operations, including spot-drilling, deep drilling with chip break, and boring cycles.
3D, 3+2 and 5-axis
Best-in-class 3D strategies
HSMWorks strives to generate the shortest and smoothest toolpaths possible, resulting in reduced machining time, improved surface quality, less tool wear, and extended machine tool life.
Select a work plane for the operation, and HSMWorks generates the most efficient rotations to orient the part. All machining strategies are available once parts are positioned. Tools and holders are gouge protected for all strategies that normally support this feature.
HSMWorks includes advanced 5-axis features include swarf for machining using the side of the tool, multiaxis contour for machining along a contact curve, multiaxis flow for using tooltip along a surface, and 3D toolpath tilting to reach deep cavity areas and small radii.
Turning and Mill-Turn
Whether you are looking for a CAM system to help you improve your productivity with traditional turning operations like roughing, grooving, or finishing – or you want to start taking full advantage of your multi-axis machine tools, download HSMWorks offers an intuitive approach to creating high-quality turning toolpaths.