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The native 64-bit architecture allows improved support for working with large models and assemblies.įull-featured CNC Editor includes NC functions, math functions, side-by-side file compare, CNC templates, graphical backplotter, and serial communications for transferring your CNC programs to RS232 based CNC controls.
#HSMWORKS LATHE CODE#
Modern architecture: take advantage of native multi-core kernel and a Post Processor System, which leverage the maximum computing power of your workstation or PC and allow you to continue programming jobs while toolpath calculations and CNC code are being processed in the background. Powerful Post Processor system: Generate CNC code at incredible speeds of up to 400,000 lines of code per second, cutting down wait time for CNC programmers to almost a fifth of what it takes in other comparable CAM solutionsĭistributed CAM reduces calculation time by allowing users to harness additional computing resources (CPU cores) across their local area network. Late design changes no longer result in delayed delivery or introduction of last-minute programming errors. Changes to the design are automatically reflected in the toolpath.
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#HSMWORKS LATHE FULL#
Saving time during machine setup.įull model associativity: Define machining geometry and parameters by selecting entities directly from the design, maintaining full associativity between the 3D models and machining operations. Probing: Quickly utilize probes on your CNC machine to set and verify part orientations and origins. Enhanced multi-core support and improved linking make Adaptive Clearing the most advanced adaptive roughing technology to date. Design fixtures and clamping systems as needed without switching back and forth between CAD and CAM systems.Īdaptive Clearing: this advanced roughing strategy, sets the bar for efficient, high volume material removal using constant tool engagement and optimized cutter paths to reduce cycle times, minimize tool and machine wear, and produce quality finished parts. Seamless workflow between CAD and CAM environments using intuitive navigation tools integrated into the Inventor user interface. Where other systems charge for modules and functionality, you get advanced milling and turning functions in one package.
#HSMWORKS LATHE PLUS#
Plus take your work on the road with the cloud based Fusion 360. Standard and custom post processors, with the ability to create new post processors, round out a complete solutionīest Value in CAM: You can use tried and true HSM solutions in the two most used 3D design solutions SOLIDWORKS and Inventor.
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Stock models allow for automatic rest material machining, while automatic tool holder collision avoidance ensure safe milling conditions. Advanced toolpaths like Adaptive Clearing allow for shorter mill times while simultaneously extending tool life. Autodesk HSM Ultimate includes functionality for 2.5D, 3-axis, 3+2 axis, and 5-axis machining, as well as lathe and mill turn applications. Nothing TOO complex though.A truly integrated design environment allows users to turn their ideas into machined parts utilizing a familiar interface, with part associativity for automatic updating with changes. I cut a lot of 17-4 and have only had a slight chatter here and there. So far for me, as long as I am using spun-profile, and maybe a degree or two of tool clearance angle, all has been fine. I can only assume there are reasons some people like it like the way it is and in the effort of learning would be glad to hear them. This would not work so well on 304, 15-5 etc. But if it were only applied to the back side then the front side would enter at an angle equal to the leading edge of the insert and may rub the part for the length of the plunge into face. I am not sure how the additioanl clearance setting works and if it is applied to both the front side and back side of insert. A change in finish insert geometry even with the same TNR forces the program to be repostedĥ. Makes for sloppy code that is harder for an operator to followĤ. When holding tight tolerance, flat and parallel I prefer not to have the z axis reversed when coming down the face.ģ. Roughing tool may not have the same ability to enter face groove and result in extra stock being picked up on finish pass.Ģ. I used an oring groove as an example however it would apply to any groove or recessed area in the face.ġ.