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Mastercam 2018 reporting computation error free
DOI: Need Help? Memory When Mastercam uses all available RAM it switches to using virtual memory space, which is stored on the hard drive and dramatically slows down the system. We recommend a minimum of 8GB of memory. Video When purchasing a new computer for Mastercam, one of the most important areas is the video card. Other graphics cards can be used, but they must offer full OpenGL 3. We do not recommend or support the use of onboard graphics found with some PC configurations.
These do not generally have the capability to drive graphics intensive applications such as Mastercam. Release new release report. Installation guide 1.
Start the installer by running the launcher. Do not install the software in the end. If you already installed the USB-emulatot on your system for the Mastercam X5-X9, uninstall it and restart the system. Run the install. Run the installation of NHaspX. Run the HaspX. Has been. Run the software. Choose the Tool parameters tab.
Right-click in the tool display area and choose Get tool from library. Choose OK again to return to the Operations Manager. Choose Regen Path to regenerate the toolpath with the new tool and new geometry. The act of making this file called an NC program is called post processing, or posting. When you post a file, Mastercam runs a special program called a post processor that reads your Mastercam file and creates an NC program from it.
Your original Mastercam file isn’t changed. Choose Post. The Operations Manager window should still be open. Select the Save NC file check box, and choose the Edit option. Choose the Ask option this means that it will prompt you for a file name.
If the correct post processor was not used, you could crash your machine tool and cause serious injury or damage. Do NOT assume that the post processor shown in these examples is compatible with your own machine tool. Type in a file name when prompted. If you wish, you can navigate to a different folder; the default is Mcam9MillNc.
Choose Save when you are done. Tip: Check your machine tool or control documentation to see what file names are allowed. For example, you might be limited to 8 characters or less. After you save the file, it will appear in a text-editing window so you can review it or make changes, as shown in the following picture. Post processors are machine- and control-specific. When you installed Mastercam, you selected a default post processor. The current post processor is listed here.
If you need to, you can select a different one by choosing Change Post. Close the NC program window to return to Mastercam. Setting the default tool library The remaining exercises in this tutorial will use tools from the MetricST In this procedure, you will make this the default tool library, so that you do not have to keep selecting it.
Choose Main Menu, Screen, Configure. Choose the Files tab. Choose Tool library in the File usage list. TL9 appears in the File name field as shown in the following picture. If it doesn’t, choose the File button and select it. Choose Save As to save the setting to the configuration file.
Choose Save. Choose Yes when asked to overwrite the current file. You’ve now seen all the major stages of creating a part and an operation to machine it.
In the next chapter, you will use the simple operation you created in this chapter as a building block for more sophisticated operations. You will create the following new operations: Finishing and multi-pass roughing operations A chamfering operation A mirrored copy of the operation The part used in this chapter is the same one that you saved at the end of Chapter 3. If you did not complete Chapter 3, use the file new elbow- mm.
Exercise 1 — Creating roughing and finishing passes The 2D contour toolpath you created in the previous chapter only has a single cutting pass. You decide that it takes off too much stock for a single pass, so you decide to rough out the part in multiple passes with a larger tool. You will complete the part with a separate finishing operation. In this exercise, you will use the following skills: Copying operations Creating multiple passes Creating finishing operations Changing tools and feed rates Copying operations To create the separate operations for roughing and finishing with the minimum number of steps, you will copy the current 2D contour operation and then edit the parameters for each copy.
If necessary, open the part file you saved at the end of Chapter 3. If you did not complete Chapter 3, choose File, Get from the menu, and open the file new elbow-mm. Right-click on the Contour folder icon and drag it below the NCI icon. Release the mouse button and choose Copy after. A copy of the operation appears as shown in the following picture. Click on the name of the first operation until it highlights for editing, and type in a new name: Rough 6.
Repeat for the second operation and type the new name: Finish. The operations should look like the following picture. Setting the roughing parameters To make the first operation a true roughing operation, you will select a bigger tool for it and specify multiple passes. Choose the Parameters icon for the Rough operation.
Since this is a roughing pass, you should leave some stock for the finish operation. Enter 1 in the XY stock to leave field. Your contour parameters should match the following picture. Select the Multi passes check box and button. Enter 2 for the Number of Roughing passes and select Keep tool down.
The rest of the values should match the following picture. Enter an Overlap of 5. This means that the entry and exit arcs will overlap by this distance. Choose the button to copy the settings to the Exit section. Your values should match the following picture. Setting the finish parameters Since the second operation will be a finish operation, you will keep the original tool, but will use a slower feed rate.
Choose the Parameters icon for the Finish operation. Enter a Feed rate of Enter an Overlap value of 5. Make sure the other values match the following picture. Choose OK twice to return to the Operations Manager. Choose Select All. Choose Regen Path to regenerate both operations with the new parameters.
The new toolpaths should look like the following picture. Make sure both operations are still selected as shown in the following picture. Set the Verify option to Y. Press [S] to step through the toolpath. Notice how the stock is removed after each pass, and how the finish tool cleans out the areas that the roughing tool cannot reach. The following picture shows you a snapshot midway through the final finish operation.
You can see the stock left by the roughing operation and how the finish operation is cutting right to the blueprint dimension. Tip: The blue check marks indicate which operations are selected. Press OK when the backplot is finished. Choose Main Menu, File, Save and save the file in your working folder as elbow2. Exercise 2 — Creating a contour chamfer Next, you would like to add a chamfer to the contour.
Mastercam has contour toolpath options that let you easily create a chamfer by specifying some simple dimensions. You will create a separate operation for the chamfer that uses a chamfer tool. You will learn the following skills: Creating 2D chamfer operations Using the Verify feature to preview stock removal Creating the chamfer operation You will create the chamfer operation in the same way that you created the finishing operation in the previous exercise, by copying an existing operation and editing its parameters.
Make a copy of the Finish operation and name the copy Chamfer. See page 45 if you don’t remember how to do this. Choose the Parameters icon for the new Chamfer operation. Select the 10 mm HSS chamfer mill from the tool library.
In the Contour type drop-down list, select 2D chamfer. Choose the Chamfer button. Enter 1 for the Width, and 2. Your selections should match the following picture.
Choose OK to return to the Contour parameters dialog box. Enter 0. The actual cutting depth achieved by the chamfer mill is determined by the width and tip offset you entered in step 9. Your contour settings should match the following picture. Choose OK to return to the Operations Manager. Choose Regen Path to create the toolpath. Using the Verify feature to preview stock removal In previous exercises, you used the Backplot function to preview toolpath motion.
In this exercise, you will use the Verify function in the Operations Manager instead. This function gives you a better picture of the 3D part. While inside the Operations Manager, choose Select All so you can verify all the operations.
Choose Verify. Choose the button to set the Verify configuration. Enter 0 for the Z—Max point. Choose the button. Choose the button on the Verify toolbar to end the Verify session and return to the Operations Manager. Exercise 3 — Mirroring the part and toolpath You are required to manufacture both left-hand and right-hand versions of the part.
You can do this by mirroring the part and toolpath. This lets you maintain the original toolpath parameters and machining direction for all the operations, ensuring that the duplicated part has the identical finish and size as the original. In this exercise, you will learn the following skills: Creating mirror images of parts and toolpaths Re-ordering operations in the Operations Manager for greater machining efficiency Mirroring the part 1.
Press the [Page Down] key several times to zoom out from the part. Right-click anywhere in the graphics window and choose Dynamic Pan from the menu.
Click and drag to the right until the part is at the right edge of the screen. Click again to exit dynamic panning. Press [F9] to display the coordinate axes. Choose Toolpath Group 1. This selects all the operations. Choose Type—Mirror. Choose Create new operations and geometry. Make sure your other selections should match the following picture. Choose the Mirror tab. Choose Reverse toolpath.
The original toolpath used climb milling; selecting Reverse toolpath means that the mirrored part will also use climb milling, so the finish on both parts will match. The Mirror tab should match the following picture. The part and toolpaths should look like the following picture. The way the operations are ordered now, Mastercam will rough the first part, then finish and chamfer it before roughing the second part, resulting in unnecessary tool changes. In this procedure, you will rearrange the operations so that the roughing, finishing, and chamfering operations are grouped to minimize tool changes.
You can see the new operations 4, 5, and 6. Click and drag the corner of the Operations Manager window as shown in the preceding picture to make it larger, so you can see all the operations.
Click on the second rough operation Operation 4 and drag it on top of the first rough operation. Click on the second finish operation and drag it on top of the first finish operation. Your operations should be in the following order. Choose Select All, Backplot. Choose Run. You should see the operations machined in the proper order. When the backplot is finished, close the Operations Manager and save the file.
In this chapter, you saw how to mirror parts and toolpaths. In the next chapter, you’ll learn techniques for rotating geometry and operations around a center point so you can easily draw and machine circular parts. After you create the part, you will learn how to rotate toolpaths as well.
Exercise 1 — Creating the geometry In this exercise, you will design a wheel with three symmetrical slots as shown in the following blueprint. You will use the following skills: Creating arcs, tangent arcs, and lines Rotating geometry Trimming geometry If necessary, create a new file. Enter for the diameter. Press [O] to select the origin for the center point. Note: Press the letter “O,” not zero. Enter 40 for the diameter of the inner circle.
Press [O] again to select the origin for the center point. Press [Esc] to exit the Create Arc function. Right-click anywhere in the graphics window and choose Fit screen from the menu. Creating construction lines for the slot To rough out the slot, begin by defining the vertical edges, then rotating to the proper position.
Select at position 1 then at position 2 these are only approximate positions to draw the construction guide. Enter 10 for the X coordinate of the line. Create a second vertical line by selecting near positions 1 and 2 again. Enter —10 for the X coordinate of the line. Next, you will rotate one of the lines to form the other edge of a slot.
Select the left line. Choose Done, Origin. Choose Operation—Copy. Enter a Rotation angle of The line should rotate as shown in the following picture. Creating the arcs for the slot outline Create the inner and outer curves along with the fillet arcs for one of the slots. Press [O] to select the origin as the center point.
Type in the radius of the outer arc: 80 4. Click near positions 1 and 2 in the following picture to locate the approximate starting and ending angles of the outer arc. Note: Mastercam measures all arcs in a counterclockwise direction. To create the inner arc, type [O] again to locate its center point at the origin. Enter its radius: 40 7.
There is a balance between comprehensive simulation for toolpath programming and full G-code simulation that is customized to machines on the shop floor, Mund said. Mastercam delivers built-in verification capable of complete machine simulation. We work to give Mastercam users flexibility and choice in the level of simulation to meet their specific needs. A key trend is simulating more complex machines with complex attachments, workholding, and tooling, said Marc Bissell, senior applications specialist for HCL Technologies Ltd.
Another trend he sees is a preference towards true G-code simulation rather than simulation based on CL data. In assembly mode, programmers see workholding and tooling during part programming and simulation, detecting any collisions or other issues earlier in the process. Some companies like Haas Automation make solid models of their machines readily available to CAM companies online.
As an added benefit, all of the CAD and CAM data is stored within a single file and the toolpaths developed by the CAM programmer will update automatically to design changes, so the current revision of the part is always the one being machined. Simulation plays a critical role in learning to use these unfamiliar machines. D Surface Finish Parallel toolpath parameters are not sticking. D Dynamic entry point was dropped.
D Pencil toolpath does not cut the fillet at the bottom of the vertical wall. D Keep tool down is not being used in the high speed toolpath operation defaults. D In Dynamic toolpaths, micro lift feed rate not changed until regeneration. D When using a ramp lead out, it plunges down before retracting between cuts with incremental feed plane. D Issue outputting a micro lift feed rate with Dynamic OptiRough. D D High Speed toolpath retracts are not outputting on regeneration of multiple operation.
D Contour with Remachining was not regenerating. D Surface Finish Blend Toolpath has bad moves. D Scallop reports that the tool holder gouges the part. D Dynamic OptiRough causing issues with plunge feed rates. D Surface Finish Contour cuts the inner side of the face when the fillet is included in the solid. D Dynamic is not respecting the avoidance regions. D Horizontal Area is plunging through the surface it is cutting.
D Horizontal Area with geometry violations results in negative stock to leave. D Dynamic will not regenerate with micro lifts. D Surface Finish Contour using a lollipop tool is leaving too much material. Contour using Derive from geometry is causing Clearance only at the start and end of operation to not function.
R R Tooling Tool Manager is renumbering tools creating odd results. R Tooling 3D Lathe tools silhouette between planes, set the ruler zero to the cut plane.
R Tooling Exiting the Tool Designer function panel is not returning the user back to the current viewsheet. R Tooling The manufacturer code for 3D tools is not being output in the posted code. R Tooling Tool Designer should use insert boundary when guessing the quadrant for new tool. R Trim toolpath does not retract between operations selected to trim.
R Changing miscellaneous values will inconsistently marks toolpaths dirty and changes posts. R Toolpath Transform operation was dirty on File, Open. R The Chaining dialog box does not change from Solids mode without closing and reopening. R Running Toolpath or Geometry nesting is resetting file paths. R When chaining, the start point is not always respecting the selected entity. R Cutter compensation not successful warning spawned in the attached file.
D Adding a Solid to drive faces hangs Mastercam. D Setting the lead out Ramp is altering the retract moves. D Copying the toolpath after itself and re-assigning a new boundary yields no creation of toolpath. D are ignoring the metric flag in inch configurations. D Feed rate override for Helix entry is not output. D User defined cutting parameters cannot be over ridden by the user.
D Regeneration flattens or removes toolpaths. R Manager Surface Finish Contour is hanging Mastercam when deselecting geometry through the geometry icon in the Manager. R Manager Manager Manager Only display associative geometry supports solid features. R Posting an Nesting operation causes error and then crashes. R When importing operations, the tool or the geometry branches do not display. R Wire Wire toolpath is displaying some additional geometry that should not exist. Information might have been changed or added since this document.
Setup in Rhino and Mastercam 2. Creating A Drilling Operation 3. Creating A Contour. Information might have been changed or added since this document was published.
Information might have been changed or added since this document was. Introduction Datum features are non-solid features used during the construction of other features. The most common datum features include planes, axes, coordinate systems, and curves.
Datum features do. Introduction We will focus on:. This control was built for the shop environment with a rugged keyboard. A dialog. The job shop progamming solution Its so simple even a CaveMan can use it! CNC Solutions, Inc. No part of this documentation may be copied, transcribed, stored in a data backup system or translated. The system enables the creation. Features are the basis for creating parts, which can be put together into assemblies.
Here you can find all of the drawing and editing tools needed to create fast, accurate, detailed working. Edit sketches of the sketch based features. Edit the sketch plane of the sketch based features. Dimension a sketch. Apply constraints to. Mechanism Design Creo 2. Start a new file in the Part. Part Design Preface What’s New? A mechanical drawing. To do so, you will create a few parts, which you will assemble. You will learn the following new applications.
Introduction Several advanced surface types are available as listed below. As part of the. WPI Laser Cutter User Guide The laser cutter is capable of cutting and engraving two-dimensional drawings in various materials including wood and plastic. The laser cutter owned by the WPI Department of.
Mastercam 2018 reporting computation error free
R Surface Finish Contour with a cmputation slot mill results in a bad toolpath. Mastercam selects all the 6 mm holes. Delete the construction line shown at position 4.
Mastercam 2018 reporting computation error free
Choose Copy and OK from the Mirror dialog box.
Simulation Software For Error-Free Metalcutting
Extract the contents of the. Double-click McamInspect. Choose a Mastercam version from the drop down list. Use this product to create a linking code for Mastercam. Double-click the. When the download is complete, double-click on aksdiag Follow the installation instructions and launch the application when complete. NetHasp License Manager. Info Use this product to install Mastercam License Manager. Info To install: Click on the mastercam-monitor.
CodeMeter 7. Info Use this product to install the CodeMeter software necessary to run software licensing for Mastercam.
System Inspector Utility. Info Use this product to create a linking code for Mastercam. Here are the steps to resolve this issue from the Knowledge Base post about this issue :. Cause The Windows 10 March cumulative update is causing blue screens with certain printer drivers, mainly the ones for Kyocera and Ricoh printers. The two updates that are known causes of this issue are KB and KB Currently, the only solution is to go into your Update History and uninstall these two updates from the system.
Cause A recent update to the cybersecurity software Bitdefender flags some Mastercam licensing files as threats. Due to this, Mastercam is unable to load a license. And Thanks For Sharing! Post Top Ad. CNC Software Inc. Mastercam is a type of software used by professionals in the manufacturing industry.
The most powerful machining software yet – Mastercam, introduces many significant new capabilities, including the new Mill-Turn product and much more. Our goal is to provide superior software products based on our users’ needs to solve simple to complex design and machining problems.
Mastercam’s powerful tools are designed for the most important job there is – your. From the CAD created with the eye to the NC programmer to the advances in the cutter path creation, Mastercam helps ensure you make the most descargar mastercam full gratis free your shop.
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Add or remove finish cuts based on the number of rough depth cuts specified on the Depth Cuts page. Chip Break is now available for Face and Finish Toolpaths when chip breaks occur.
Mill-Turn machine definitions now contain tailstock and quill components. The new Tailstock Operation allows you to define how the machine’s tailstock is being used.
Angle Sweep improves the creation of more complex wireframe functions, and when creating or editing primitives, there are now on-screen sweep and rotate controls that can snap to the existing AutoCursor positions.
Seam Control allows you to visually rotate a seam to see how geometry will respond, as well as snap to AutoCursor positions. The Hole Axis makes it easier to work with a large number of holes. Also available in the Mastercam release are the following features: – A new set of turning strategies that automates toolpath generation and support for Sandvik Coromant CoroTurn Prime inserters and PrimeTurning method.
Streamlined workflow with improved plane management, level and geometry control, toolpath analysis and more. OS : Minimum: Windows descargar mastercam full gratis free, 8. More information: Operating Systems CNC Software Continues to review the operating system OS requirements for Mastercam with a view to providing the best possible user experience for our customers.
We recommend using Windows 7, 8. While Mastercam can run on other Windows versions such as Home Edition or virtual environments such as Parallels for Macit has not been tested on these configurations and therefore is not supported. We have been running Mastercam versions X8 and later extensively on the ram mb 7 windows free ultimate released Windows 10 and have not seen any issues to date. Processor The processor speed will affect how much the software will calculate and complete tasks.
More and more aspects of Mastercam are becoming multi-core processor aware with each release. We recommend using Windows 10 version 20H2 or later or later bit Professional editions. While Mastercam may run on other Windows editions such as Home Edition or virtual environments such as Parallels for Mac , it has not been tested on these configurations and is therefore not supported.
Mastercam was the last release to officially support Windows 7 as Microsoft ended extended support for the OS in January Mastercam will install on Windows 7 systems but will not be supported. Future versions of Mastercam will not install on Windows 7. The processor speed will impact how fast the software will calculate and complete tasks. With each release, more and more aspects of Mastercam are becoming multi-core processor aware. Toolpath calculation and Simulation will generally run faster with a multi-core processor.
When Mastercam uses all available RAM, it switches to using virtual memory space, which is stored on the hard drive and will dramatically slow the system down. We recommend a minimum of 8 GB of memory. When purchasing a new computer for Mastercam, one of the most important component is the video card. Other graphics cards can be used, but they must offer full OpenGL 3. OpenCL is required for Mastercam to be able to hand off certain computation tasks to the graphics card to increase system performance.
We do not recommend or support the use of onboard graphics found with some PC configurations. These do not generally have the capability to drive graphics intensive applications such as Mastercam and can lead to system instability. Make sure you are using up-to-date drivers from your card manufacturer. Mastercam will run on large format displays, including 4K monitors and high-DPI devices however, we do experience some display issues with these configurations.
We have found that one of the best computer upgrades is to invest in a NVMe drive. These drives are now priced at a point which makes them a good investment. Many of our test systems employ a smaller primary NVMe drive for the OS and installed applications with a second large capacity conventional drive for data.
See the table below for minimum and recommended system configurations for Mastercam. CNC Software, Inc. We recommend using Windows 10 bit Professional editions.
When Mastercam uses all available RAM, it switches to using virtual memory space, which is stored on the hard drive, and will dramatically slow the system down. We recommend a minimum of 8GB memory. These do not generally have the capability to drive graphics intensive applications such as Mastercam. The majority of our internal systems utilize dual monitors and we find this to be more productive. A second monitor allows applications such as Mastercam Simulator, Code Expert, Tool Manager and other applications to run on the secondary monitor while Mastercam utilizes the primary monitor.
Mastercam will run on large format displays, including 4K monitors and high-DPI devices however, we do some display issues with these configurations. Many of our test systems employ a smaller primary SSD for the OS and installed applications with a second large capacity conventional drive for data. A 3D mouse improves the way you interact with your 3D application. It is designed to be used by your non-dominant hand in tandem with a standard mouse for a balanced and cooperative work style.
Additional technical and purchase information can be found on the 3Dconnexion website. Most computers today have some kind of anti-virus software to protect from unwanted malware. In some cases, these have been found to interfere with applications such as Mastercam which are running on the computer.
CNC Software does not recommend specific anti-virus products, but if you see unexpected issues, it may be a conflict with anti-virus software. Try temporarily disabling the anti-virus software or setting an exception for Mastercam. Our global community of Mastercam users, experts, educators, and enthusiasts helps you get the most from your investment. CNC lathe programming software is used to create toolpaths through G-code to operate computer numerical control CNC lathe machines.
This allows for machine automation, where the machine cuts a part to the specifications of the input code. Some lathes are equipped with the ability to do limited milling, and some shops modify their lathes to do light milling.
