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Creo Parametric Tips

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I thought that the trial period was 30 days but I got a popup saying "Time Remaining - Your Creo Parametric8.0 trial will expire in - 18813 days, -19 hours and -9 minutes.", is it an error or whats "18813 days" mean? Also, after 30days I wont be allowed to use trial anymore or will be able to use some of the functions still?    
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Check out this great video about Multi-Body Design. Presenter:  Lino Tozzi and Ryan Butcher Date Presented:  February 16, 2021   (view in My Videos)   Take a deeper dive into this topic here, with this PTC University course. Creo: Multibody Design
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Applicable Release: Creo Parametric 1.0 to 8.0   Description: In this video, we will be enabling DEBUG Logs For Creo Parametric by setting environment variables from Command Prompt window If the CMD window is launched with Admin Privilege (Run as Administrator), the variables will be set as system level. Else, will be set at user level. The user may need to log off and log-in for the variables to take effect.
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Applicable Release: Creo Parametric 1.0 to 8.0   Description: In this video, we will be enabling DEBUG Logs For Creo Parametric by using Parametric.psf file Parametric.psf file exists in <Creo load point>\Parametric\bin The PSF file could be any custom PSF file configured for users to launch Creo Parametric
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Applicable Release: Creo Parametric 1.0 to 8.0   Description: In this video, we will be enabling DEBUG Logs For Creo Parametric by using Parametric.bat file Parametric.bat file exists in <Creo load point>\Parametric\bin The batch file could be any custom start batch script file configured for users to launch Creo Parametric  
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Hi, today you can learn in the 6 minutes: How to display different assembly positions on a drawing
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Hello everyone and welcome back to the multibody blog series. This post also attempts to answer another body parameter related question: How can I display call-out a body parameter in a generic way? We received a question and enhancement idea from customers adopting Creo 7.0 asking for Leader Note Callouts for Bodies, similar to existing notations available for models, features etc as described in the Creo help here. (in short: Previously, when attaching a leader note to a model (component) you can get the value of a specific parameter for the attachment model. This can be achieved with the following syntax: &<param_name>:att_mdl  e.g &BOM_PART_NO:att_mdl)   An analogue workflow is now supported for body parameters. We implemented and added this to Creo 8.0. This enhancement allows you to call out the values of body parameters into a leader note that is attached to that body. To call out the value of a specific body parameter, you need to use the following syntax inside the leader note that is attached to that body: &<body-parameter-name>:att_body For example, if you have a body parameter called Description, you could create a leader note with the callout &Description:att_body  or call out the body’s material using &PTC_ASSIGNED_MATERIAL:att_body   When you create a leader note with this syntax, Creo Parametric checks the body to which the note leader is attached. If the called parameter exists for that body, then the body parameter gets evaluated and the parameter value is shown in the note. In the case of an assembly, Creo Parametric looks for the called parameter in the body of the component to which the note is attached. The callout is supported for all the environments and modes that already support :att_mdl.   Example: All bodies have a DESCRIPTION parameter called out using &Description:att_body      Thanks for reading. I hope it was informative.   Back to Creo 7.0 & 8.0 Multibody Home: Start Here!   Enjoy!....Martin
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  Let's continue the conversation from the webinar: We’re Moving on Up! Ensuring the Success of your next Creo Parametric This session introduced our newly launched Success Path for upgrading your version of Creo, reviewed the tools available to you to harness the expertise of our Customer Success team.  If you missed the webcast you can watch the replay and add any questions you have here. Jake and other experts at PTC will help to get your questioned answered!  Speaker:   Watch the Replay Visit the Success Path Jake Koch, PTC Director, Customer Success Journey Lead CAD
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The Creo Product Management team acknowledges the additive manufacturing industry has been quickly evolving and many of our customers are moving beyond prototyping and into final part production. Based on that, you may be aware that we have been working over the past releases of Creo to support this transition through robust additive manufacturing software. A lot of these efforts were made possible thanks to constant feedback from our users that helped drive our product. On that note, we’re currently seeking feedback specific to additive manufacturing in order to validate our assumptions and strengthen our pipeline for the next several releases. We would like to hear from you as we plan to build a better product and experience, please use the link below to answer the survey:   PTC Additive Manufacturing Survey.
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The best advice for anyone that has trouble in Sketcher is to keep the sketch simple. Do not try and make a single sketch that encompasses the entire model shape with all cuts and rounded or chamfered edges. Rather, create multiple sketches that are simple, with fewer entities. Fewer entities are easier to control when you start making design changes. Take this muffler model, for example:        The first solid geometry for this model started as this:        Followed by this:      Then this:        Simple sketches of few entities were created, and the solid geometry started to take shape. The sketches should consist of small bites of geometry, not the whole shape at once. For more on Sketching and other topics, check out PTC University's Creo: Fundamentals and Productivity Tools!  
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  With the wide-spread use of additive manufacturing, you now have more options than ever before for part and assembly design. That’s because without the restrictions of traditional manufacturing, more intricate structures can now be used to optimize weight, strength, and even heat distribution.   (For an overall introduction, read our Beginner’s Guide to Lattice Structures in Additive Manufacturing.)   In a recent presentation from PTC University, Matt Huybrecht discussed and demonstrated new features in Creo that support lattice structures for those who want to use them. However, before you start, a few questions came up that we thought you might find interesting:   Can I do a structural analysis on stochastic lattices? YES! The DISPLAY of the geometry is that of simplified representation geometry, but the lattice geometry does contribute to mass properties calculations. Therefore, you can leverage it in structural analyses.   How is the additive manufacturing functionality licensed in Creo Parametric and what are the differences? There are two licenses available:       Creo Additive Manufacturing Extension (AMX) – An add-on extension that provides lattice structure creation and optimization and printer tray setup. It includes basic additive manufacturing capabilities, including: Out-of-the-box 3D printer support for Stratasys and 3D Systems printers. Model preparation (tessellation) Printer tray setup Global scaling Printability validation Model interrogation Calculations of build material Option to order 3D print       Creo Additive Manufacturing Plus Extension – An add-on extension that provides 3D metal printer connectivity, printer management, and tools to automate support structure generation.    For even more guidance from the PTC University team, check out the new LEARN classes now available online.      
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Hello everyone and welcome to blog post #7 in this multibody blog series. This post also attempts to answer another body parameter related question: How can I display, use or call-out a body parameter? If you want to call out a body parameter then you have to use the syntax as explained in the Creo help here.   &<param_name>:BID_<body_feature_ID> Or &<param_name>:BID_<body_userdefined_name>   Note: For bodies that have the default name (body 1, body 2, etc) you cannot use the system-defined default body name but you have to use the body’s Feature ID. (The reason is that the system-defined names such as body 1, body 2, etc are localized and translated into other languages and therefore not representing stable references across languages.)   Example: Let’s assume we have 2 bodies. Here their names and parameters list.     To call out the parameter “MY_BODY_INFO” for both bodies, we can now use the following for body 1 &MY_BODY_INFO:BID_-5778   And one of the following options for the WHEEL body (which has id 6105) &MY_BODY_INFO:BID_6105 &MY_BODY_INFO:BID_WHEEL   So if you create a note and enter: You will see the resulting note text being: I think we have a preference of using body names. Therefore the system automatically tries to convert the body IDs to body names where possible. So when you go back to the call-out symbol definition, you will see it being changed to   Thanks for reading. I hope it was informative.   Back to Creo 7.0 Multibody Home: Start Here!   Enjoy!....Martin
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Hello everyone and welcome to blog post #6 in this multibody blog series.   I got asked recently : How can I display a user-defined body parameter in the model tree? If you are interested in that as well, here is how you do it. Let’s walk through an example step-by-step.   Step 1) Let’s assign a body parameter (and let’s call it for example “MY_BODY_PARAM”)   Step 2) Open the Model Tree Columns display dialog   Step 3) Select the Type: Body Params     Step 4) You might notice that the list shows system parameters related to bodies (e.g. PTC_ASSIGNED_MATERIAL), but not the newly added user-defined parameter  Step 5) Manually enter the user-defined-parameter (in our example “MY_BODY_PARAM”) into the Name field     and click the double-arrow to move it into the displayed columns     Step 6) Click “OK” and ensure model tree columns are displayed. Now you should be able to see your body parameters as part of the displayed model tree columns   q.e.d. 🙂  I hope that helped.   Back to Creo 7.0 Multibody Home: Start Here!   Enjoy!....Martin
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Hello everyone, I have created for you a whole series of Creo Welding tutorials:              
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Hello Multibody community!   Welcome to a second post on multibody capabilities added in Creo 7.0.1. What I had not yet been fully covering in the last post was how Creo & Windchill interact as it relates to the multibody concept. So, here a summary of Multibody support for Windchill & Visualization General behavior Multibody parts are managed similarly to single body parts, bodies are not exposed Windchill versions prior to Windchill 12 Body designation information is ignored when connected to a Windchill Server version not supporting body designation yet Publishing of multibody parts to Creo View is supported since Creo View 6.1 (including exposure of bodies to Creo View) Windchill 12 & Creo 7.0.1 Support of Body designation, including Transfer of Body designation information from Creo to Windchill for models containing designated bodies WT part creation for designated bodies if BOM Designation is set (.prt, .asm) IBA mapping & propagation for body materials and mass property parameters Note on Windchill configuration: those attributes have to be added to the Body (under Model Items) type definition. They need to be part of the type definition similar as typically being done for the CAD Document type.   Here is a quick demo of the above capabilities (view in My Videos)   Back to Creo 7.0 Multibody Home: Start Here!   Enjoy!....Martin      
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The Flexible Modeling Symmetry Recognition feature locates mirror-symmetrical geometry and builds new symmetry logic to the design intent. For example, the Symmetry Recognition feature is possible to use for Flexible Move.
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With Flexible Modeling Edit Round feature you can easily provide fast editing and removal of round geometry. This video tutorial includes some examples of editing the radius value or removing the selected round geometry from the part.
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Hello Multibody community!   Welcome to this new post on the multibody capabilities that we introduced with Creo 7.0. Meanwhile, the first maintenance release Creo 7.0.1 had been released and it does contain several refinements/enhancements to the initial set of capabilities. Here a list of those enhancements: Boolean Operations In Creo 7.0, the “Keep bodies” option in Boolean Merge, Subtract and Intersect features was only available during feature creation. Now it is also enabled during feature Edit-Definition workflows Curve feature  You can now select a body (in addition to the previously available object types Quilt and Surface) when checking the “Place curve on surface” option. Data Exchange The “Import multiple bodies into one part” option is now available in File/Open (Unite) and ATB-enabled Import workflows Improved Body Handling Improved body handling when a feature-owned body (e.g. a body created by split-body, import or data sharing features) gets deleted from the model Data Sharing and Reference Pattern robustness enhancements for specific multibody situations Aligned Material reporting The mass properties report uses the parameter PTC_REPORTED_MATERIAL in all places where material is reported. New configuration option for multi-material parts:   ptc_reported_material_mp_report Windchill support for designated bodies If you are interested in seeing demos of the above capabilities 1)-6), take 15mins to watch me walking through them. Beyond the new capabilities you might also find some of the multibody concept related background information useful. (view in My Videos) Note that I plan a dedicated video showing the Multibody related Windchill interaction for my next post.   Back to Creo 7.0 Multibody Home: Start Here!   Enjoy!....Martin
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The Flexible Substitute feature enables replace a selected surface with another and remove or recreate existing rounds automatically.
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The Flexible Modeling Mirror feature enables you to mirror geometry about a reference plane. Note: Surfaces are automatically extended and rounds are recreated at the intersecting edges if they exist.
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