Tag creo 6
Previously, there was no control over the tolerance zone shape modifier for holes and spheres in ISO GPS models. Now, GD&T Advisor allows you to control the tolerance zone shape modifier using options such as SØ, Ø, or <none>. If… Continue Reading →
Geometrical tolerances for Straightness and Line Profile can now be applied to ISO GPS models in relevant situations. Previously, GD&T Advisor did not support these tolerances for ISO models. Now, when such an indication is used, a message will notify… Continue Reading →
General Profile Tolerance (GPT) with semantic information is now available in Creo, marking a significant enhancement. Previously, GPT was represented only as a simple note with no reflection of its properties in its parameters. Now, GPT created using GD&T Advisor… Continue Reading →
The GD&T Advisor User Interface has undergone a significant update, with icons modernized to align with a new color scheme and the latest Creo guidelines. These changes aim to improve the overall user experience by enhancing the clarity and accessibility… Continue Reading →
In the past, relating symbols or surface finish annotations to other annotations in Model-Based Definition (MBD) was a manual and non-associative process that lacked persistence when the parent annotation was moved. This enhancement introduces a more efficient way to link… Continue Reading →
Previously, EZ Tolerance Analysis included only the most efficient part-level dimension between two mating features in the Stackup Table, leaving other intermediate dimensions unused unless manually added. With this enhancement, EZ Tolerance Analysis now detects existing intermediate linear dimension annotations… Continue Reading →
Previously, it was not possible to export analyses from EZ Tolerance Analysis and use them in CETOL. With this enhancement, EZ Tolerance Analysis now supports the export of tolerance stackup data in the CETOL (.cxm) format, allowing for seamless integration… Continue Reading →
Have you explored the ability to select an alternate annotation plane in Creo EZ tolerance analysis?
Previously, once an annotation plane was selected during stackup creation, it couldn’t be changed without starting over. This enhancement now allows you to select an alternative annotation plane for the stackup annotations, streamlining the process and saving time. Creo Parametric 10.0.0.0… Continue Reading →
Previously, while the effects of material condition modifiers (MMC Ⓜ or LMC Ⓛ) on position tolerances were considered in stackup calculations, they were not displayed in the Stackup Table. With the latest enhancement, a new row has been added to… Continue Reading →
Previously, the stackup analysis results plot was based solely on the selected quality metric, leaving out other important metrics for reference. With this enhancement, the plot now includes additional quality metrics—such as Cpk, Sigma, DPMO, and %Yield—alongside the chosen metric,… Continue Reading →
In previous versions, when designs were copied and Creo models were renamed, you had to manually update the component names in the Stackup Table. This step could be easily overlooked, leading to confusion and extra work. The latest enhancement automatically… Continue Reading →
In previous versions, it could be challenging to verify which components were correctly selected in the graphics area during stackup creation. This latest enhancement improves the visualization of selected components by applying enhanced transparency and highlighting, making it easier to… Continue Reading →
Previously, if you selected an incorrect component or mating feature while defining a new stackup, there was no way to correct the mistake without starting the entire workflow over again. With the latest release, the New Stackup dialog box has… Continue Reading →
PPRINT support is now available for all tool parameters, allowing them to be added to the CL data as PPRINT statements. A new Tool Parameter UI command has been introduced, which includes all tool parameters. To display the required tool… Continue Reading →
The USER_OUTPUT_POINT parameter allows you to specify a tool offset in the XZ plane of the NC sequence coordinate system for both Area Turning and Profile Turning steps. The toolpath is offset by the NOSE_RADIUS value along the X-axis, Z-axis,… Continue Reading →