SolidCAM CAM Software: SolidCAM .
This document was uploaded by user and they confirmed that they have the permission to share it. If you are author or own the copyright of this book, please report to us by using this DMCA report form. Report DMCA. Home current Explore. Words: 2, Pages: Default settings for the iMachining Data selections Every time a new CAM-Part is created, you have to define the iMachining Data selections if you want to use the iMachining technology. Switch to the Working Style page and click iMachining.
The default settings for the iMachining Data selections appear in the Name column. Click the empty Value field next to Default Machine Database. The relevant iMachining Database menu is activated, which enables you to define a default machine that is associated to your post-processor. Click the empty Value field next to Default Material Database. The relevant iMachining Database menu is activated, which enables you to define a default work material that is associated to your post-processor.
The reaction of this cutting force is transmitted to the tool and from there to the machine. Favorable ACP values are therefore taken into account when the depths are generated. If the tolerance was set to 0, the Wizard would output an increased No. With a higher tolerance, on the other hand, the Wizard will output a reduced No.
With this setting, the ACP indication will show that the situation for stability is good if you get a value of 1. The UTS is the physical property which determines the force per unit area required to cut the material, measured in megapascal MPa pounds per square inch psi. The iMachining technology utilizes the UTS value when calculating the optimal Cutting conditions for an operation.
It has been recommended to use www. It is important to know the exact specification of your stock material so that you may find its correct UTS value. After machining, you may discover that you can cut your material faster than the Machining level slider or Turbo Mode permits. In most cases, this means that your material is less hard than specified by your property data resource. And because the same materials are made by many different manufacturers, it should be expected that tolerances exist between your material and its given UTS value, making it more or less machinable.
Moving the slider in the positive direction informs iMachining that your material is less hard than indicated by its UTS value and is more machinable by the specified percentage. Accordingly, the Technology Wizard will output more aggressive Cutting conditions by default. NE When Constant is selected, the height of the steps during Step-up are made constant.
The value in the text field defines the vertical distance of all steps, regardless of the local slope of each individual surface steep or shallow.
When rest machining 3D prismatic parts however, the default value automatically calculated for the Scallop parameter would often produce undesirable results. It was typical to find that the tool ignored material in some corners on vertical walls. The example below illustrates the result of using the default Scallop value.
To ensure that all intended rest material was machined, you had to manually specify a value less than or equal to the Wall offset. The example below illustrates the desired result of manually specifying a Scallop value equal to the Wall offset.
On the Technology page of the iMachining Operation dialog box, the Rest Rough parameters used for calculation of the Step-up tool path passes will be either shown or hidden according to the specified type. Like the previously named 3D Surfacing, the 3D General technology enables you to define a roughing, rest machining and semi-finishing operation for molds and complex 3D parts.
The Step-up cutting passes are generated according to the defined Scallop or Constant parameters. The 3D Prismatic technology, on the other hand, uses improved algorithms that are optimal for machining 3D prismatic parts without the need to define any Rest Rough parameters. When specifically rest machining 3D prismatic parts, the tool no longer ignores material like it did before due to a discrepancy between the Scallop value and Wall offset.
All intended rest material will be machined. When machining 3D prismatic parts, performance and efficiency is automatically maximized to achieve the shortest possible cycle time. Using iMachining 3D over iMachining 2D provides the following four benefits: 1. Non-cutting moves are reduced by the 3D Z-level ordering and localized machining of 2D tool path regions.
Long position moves are reduced by the 3D Z-level linking and localized machining of 2D tool path regions. Large tools can safely be used in confined spaces. Plunges down on wall iMachining 2D with large tool Takes different approach iMachining 3D with large tool 7.
Parallel calculation in iMachining In SolidCAM , with the implementation of multi-core and multithreading W support, the iMachining technology is able to achieve even faster calculation NE times. Such techniques, which in this case are complementary, enable your computer to perform more tasks with greater overall CPU performance. This means that the calculation of an iMachining operation can be distributed and solved simultaneously across multiple central processing units cores.
Furthermore, multithreading is performed by each core to manage and complete the task more efficiently. When using iMachining 3D specifically, where tool path calculation times can be long, you will notice the highest impact since multiple Z-levels can now be calculated simultaneously. Cutting angle feedback during simulation In SolidCAM , when simulating an iMachining operation, you can now view W real-time changes in the cutting angle of the tool path. NE The cutting angle is displayed in the Simulation Data dialog box along with other tool path information such as coordinates of the current point, time, feed and spin.
To open the Simulation Data window, enable the Show data option in the Simulation control panel. The integration ensures the automatic update of tool paths for CAD revisions. Solidcam Imachining Whats New December Solidcam Whats New December 0. Whats New Tank last month 0. Whats New Mastercam October 0.
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