Creo Parametric Tips

Attached please find a video showing new Flexible Modeling tools in Sheet Metal that allow to recognize Sheet Metal Design Objects such as bends, bend reliefs, corner reliefs, corner seams, forms from geometry and modify them with new dedicated tools. Note that you might want to use the respective recognition tools with the automatic option upfront to recognize all those objects on the model. The Design Object tree (secondary tree) will show the recognized objects. The new Edit tools (Edit Bend Relief, Edit Corner Relief, Edit Corner Seam, Edit Bend) then allow you modify those objects independent from how these features had been created and as such even on an imported model. Tools that are already quite stable in this sneak-peek version are: The new recognition tools (Recognize Bends, Bend Reliefs, Corner Reliefs, Corner Seams, Forms) Edit Bend Relief Edit Corner Relief Edit Corner Seam Tools are not fully stabilized yet in this version are: Edit Bend Pull Wall Even though not fully stable, we decided to keep them in the sneak-peek version to at least allow you to try them out in basic scenarios. Note that Edit Bend and Pull Wall actually handle the adjacent conditions (reliefs and corner seams) and recreate them after the operation. Both operations also automatically transform all geometry that is attached to the modified wall/bend. Looking forward to your feedback! Best regards…Martin

Jun 14, 2016

Attached please find a video on the exposure of Flexible Modeling tools in Sheet Metal. It focuses on selection and geometry modification tools that are available in regular part mode and had been adapted for the Sheet Metal environment to honor guidelines such as constant wall thickness and other specific rules. In particular note how Move and Remove refine the selection automatically and how other tools like substitute, offset, etc are only allowed for side surfaces. Pattern recognition and propagation are supported for operations such as move. Have fun! Looking forward to your feedback. Best regards..Martin

Jun 14, 2016

With the release of PTC Creo 3.0, PTC Creo Parametric users now have access to an expanded library of standard parts and fasteners as well as an intuitive user interface to speed up the process of adding hardware to your assembly design. Jim Barrett Smith, Product Manager at PTC, gives an overview of the new capabilities: To define the position of a fastener, select the datum point, axis, or a hole. You can select two aligning surfaces to define a fastener connection with a thread. Or, you can select two opposing surfaces to define a fastener and nut connection. Next, select a fastener from the comprehensive library of fasteners. Choose the size of the thread or measure the thread size using an existing hole. Selecting a fastener from the standard parts library You have the option to set the length of the fastener yourself, or to have it set automatically. You can also control the hole tolerance and choose whether to have a counterbore on the top, the bottom, or both. Setting the length of the fastener There is a 2D preview in the dialog which updates with as you define the fastener details. Furthermore, you can click Preview to see a 3D view of the fastener in the graphics area. You can get a 3D view of the fastener by selecting Preview When you are satisfied, click OK to assemble the fastener. After a fastener is assembled, you have the ability to reassemble or redefine it. Furthermore, if you reassemble an existing fastener onto a pattern, you will have the option to pattern the fastener. This saves significant time and effort. If needed, you can choose to delete all patterned fasteners by simply selecting one and clicking Delete. Check out our video tutorial on the PTC University Learning Exchange (“PTC Creo Intelligent Fastener (Lite)”) to learn more. Stay tuned to our “Did You Know” blog series as we cover all of the exciting, new enhancements in PTC Creo 3.0. For more in-depth product feature explanations, visit our Tech Tips area. Have some ideas about what PTC Creo product features you’d like to learn more about? Send me a message or leave a comment below and we’ll write up the best ideas from the community. Thanks for reading, looking forward to all of your feedback! In case you missed it, check out our recent Did You Know posts covering PTC Creo 3.0 enhancements: Flexible Pattern Tool in the PTC Creo Flexible Modeling Extension Aligning Freestyle Geometry

Dec 19, 2014

Apr 3, 2014

This week’s Did You Know, provided by our Director of Product Management Paul Sagar, teaches users how to create helical sweeps for springs using the sweep tool in PTC Creo Parametric. With this tool and its dashboard interface, creating springs is quick and easy. Paul shows us how to do so in three easy steps: Step 1: Start Sketching the Spring’s Profile The helical sweep tool is located in the Shapes group of the modeling tab, under the Sweep Type drop down. The sweep type drop down menu After the helical sweep dashboard opens, go into the References tab and click Define to begin sketching the profile of the spring. In this example, we’re going to sketch the spring’s profile on the FRONT datum plane in a 2D orientation. Step 2: Define Spring Properties First, define the spring center line. This will be the center axis of the spring (the axis of revolution). Defining the axis of revolution on the center line Next, add a vertical line to the left of the center line to represent the profile of the spring. This will be the diameter of the spring defined through the center of the spring’s wire. Complete the profile sketch. Now define the Helix section by choosing Create or Edit Sweep Section in the dashboard. The diameter of the wire will be sketched at the start point of the profile, using a circle. But you can use any shape you need. Step 3: Add Relations The helical sweep dashboard makes it easy to edit the pitch value of the spring, or toggle the spring from a right hand to left hand turn. The finished helical sweep will be seen dynamically on the screen. Complete the feature. To finish the spring however, we want to make sure the spring maintains six coils no matter how much it’s expanded or compressed. To do this, we’ll need to add a relation to the part. Adding relations to ensure this spring has six coils This relation will be used to control the spring’s pitch as it expands and contracts. Go to the Tools tab and open the Relations Dialog box. We can see that the height of the spring is D1, the pitch is D2, and the diameter is D0. We need to write a relation that says the pitch equals the height of the profile divided by 6. This will ensure that the spring always has 6 coils. Now we can test it by editing the height dimension to compress and expand the spring. The final product: We can continue to compress and expand the spring without changing the number of coils Check out our video tutorial on the PTC University Learning Exchange (“Creating Helical Sweeps for Springs”) to see this advice in action. We’d also love to hear your suggestions for working with helical sweeps below. For more in-depth product feature explanations, visit our Tech Tips area. Have some ideas about what PTC Creo product features you’d like to learn more about? Send me a message or leave a comment below and we’ll write up the best ideas from the community. Thanks for reading, looking forward to all of your feedback! In case you missed it, here are our recent Did You Know posts: 1) How to Use Motion Skeletons to Quickly Design Mechanisms 2) Tips for Fewer Model Failures with Intent References 3) Tips for Creating Advanced Round Geometry in PTC Creo Parametric

Feb 19, 2014

The first edition of our new “Did You Know” series featured advice for creating advanced round geometry in PTC Creo Parametric. This week Don Breda, Product Manager at PTC, shows us how to use intent references in PTC Creo Parametric to avoid model failures. Here is the situation we are trying to avoid: let’s say you are trying to change a square interface into a hexagonal interface. You redefine the extrusion and delete the square. Now, the system says you are deleting entities that are referenced by other features. Hence, we’re left with feature failures. In this particular instance both a draft and round have failed when we changed the section that is used to define the extrusion. What causes this failure? Both the draft and round were referenced to the individual surfaces and edges of the extrusion. How do I avoid this problem? Change the way these features are created by using intent references. Edit the Definition of the Draft feature, and remove the individual surface references. Next, “query select” by clicking the right mouse button until all the sides of the extrusion are pre-selected - the tooltip will say IntentSrf. Click the left mouse button to select the intent reference. Instead of picking geometry explicitly to reference, you are telling the system to reference the surfaces of the sides created by the extrusion. This is the intent reference. After editing the definition of the draft feature so that it uses intent references to always reference the side surfaces of the extrusion, we can make changes to the extrusion’s section without problems. We can also use intent references to redefine the rounds, removing references to explicit geometry, and substituting intent edges at the end of the extrude feature. The draft and round features no longer reference the individual surfaces and edges of the extrude feature. Instead, the draft uses an intent reference that consists of all side surfaces of the extrude, while the round feature uses an intent reference that consists of all edges at the end of the extrude. Now we can go ahead and delete the square interface and replace it with the hexagonal interface. With Intent References, we’re able to delete the square interface and replace it with a hexagonal interface without failures occurring. This time everything has updated properly. The draft is applied to the side surfaces of the extrude, while the rounds are applied to the end profile of the extrude. The bottom line is whatever we change the profile to, we’ve ensured the draft and rounds will be created properly. Check out our video tutorial on the PTC University Learning Exchange (“Intent References”) to see this advice in action. We’d also love to hear your suggestions for working with intent references below. For more in-depth product feature explanations, visit our Tech Tips area. Have some ideas about what PTC Creo product features you’d like to learn more about? Send me a message or leave a comment below and we’ll write up the best ideas from the community. Thanks for reading, looking forward to all of your feedback!

Feb 5, 2014

Jan 25, 2012

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Sep 10, 2010

Featured Article

Welcome to Creo Tips and Techniques Series Main Presenters: Ryan Butcher (Technical Specialist, Fellow) and Lino Tozzi (Technical Specialist, Fellow) Below you will find all the related webcast recordings and recommended additional learning resources. Webcast Title Description Learn Online Classes/Resources 1 Learn Online Classes/Resources 2 Creo Multi-Body Design Creo Multi-Body Design Creo: Multibody Design Class Info Creo and Augmented Reality Creo and Augmented Reality Augmented Reality Class Info Creo: Generative Design Automated geometry creation using design criteria Creo: Generative Design Class Info Creo Generative Design Tutorials Creo: Simulation Live Real time simulation during design Creo Simulation Live Class Info Creo Simulation Live Tutorials Creo: Flexible Modeling Direct modeling features to edit imported data Creo: Flexible Modeling Class Info Creo Flexible Modeling Tutorials Ansys Simulation Ansys Simulation Ansys Simulation Class Info Harness Design Used with cabling to create harness mfg drawings Cable Routing & Harness Class Info Cable Routing & Harness Class Info Manufacturing Automation Tools for mfg efficiencies Mfg Training Class Info Additive Manufacturing Design for 3D printing Additive Manufacturing Class Info Advanced Assembly Advanced techniques for assemblies Creo Advanced Assembly Class Info Behavioral Modeling Automated design intent Behavioral Modeling Class Info Surfacing Tips & Techniques Core Surfacing-ISDX-Freestyle Surfacing Class Info ISDX Class Info Creo Mechanism Dynamics Creo Motion analysis Creo: Assembling with Kinematics Connections Class Info Creo: Mechanism Design & Analysis Class Info Mathcad Express Mathcad Express Mathcad Tutorials Design Exploration & Intelligent Fastener (IFX) Explore multiple design concepts; automatic assembly of fasteners Design Exploration Tutorials Intelligent Fastener Tutorials Tool Design/Mold Analysis Mold design and flow analysis Mold Design Tutorials High Speed Machining High Speed Machining Axis High Speed Milling Info Prismatic & Multi-Surface Milling Standard mfg in Creo Creo: Introduction to Milling Class Info Creo: Introduction to Turning - COMING SOON Creo Unite & Import Data Doctor MultiCAD design collaboration Creo Unite Technology Tutorials Plastic Part Design Plastic Part Design Plastic Part Design Overview Large Assembly Management Top Down design Creo: Using Assembly Skeletons for Top-Down Design Class Info Creo Sheetmetal Design Creo Sheetmetal Design Creo Sheetmetal Class Info Creo Sheetmetal Tutorials Reverse Engineering Use scan data to create new part designs Advanced Modeling Techniques Techniques for Sketcher, Selection, Sweeps, Deformation, Blends Creo Simulate Advanced Creo based Advanced Simulation Creo Simulate Advanced Tutorials Creo Render Studio Photo render your models Creo Render Studio Tutorials Creo Model Based Definition 3D drawings (model centric designs) Creating Annotations using MBD Modifying & Publishing Annotations using MBD Creo Automation Creo based automation tools: Macros, Programming, Options Modeler Creo Automation Tutorials Creo Manikin Ergonomic studies with manikins Creo Manikin Tutorials Creo Schematics Routed Systems design for all types of schematics Creo Schematics Class Info Creo Schematics Tutorials Creo View Interference Lightweight view of CAD designs Creo View Tutorials Creo Clearance & Creepage Analysis Clearance and Creepage analysis for electrical designs What's New in Creo 8 & 9 What's New in Creo 8 & 9 What's New in Creo 8 & 9 Tutorials What's New in Creo 8 & 9 Blog ECAD/MCAD Collaboration MCAD designer and ECAD designer collaboration Data Exchange Tutorials PTC University PTC Creo training Advanced Framework Extension Design of steel structures Advanced Framework Extension Tutorials Advanced Framework Ext Tutorial Creo Flow Analysis Simerics based CFD Creo Flow Analysis Tutorials Creo Ansys Simulation Full Ansys based solution embedded in Creo Creo Ansys Simulation Class Info Creo Ansys Simulation Tutorials What's new in Creo 9 What's new in Creo 9 What's New in Creo 9 Piping Design 3D routing of piping design Piping Design Tutorial Get Started with Creo Parametric Piping Creo Layout & 2D Sketching Axis concentric design layout in 2D Creo Layout & 2D Sketching Progressive Die Design Design of sheetmetal stamped parts About Progressive Die Design Virtual Interconnect Libraries for schematic design Virtual Interconnect Design Automation for Creo Partner automation tools CadActive Creo Automation with Smart Assembly Partner automation tools SIGMAXIM DFMPro Design for mfg (Partner) HCL DFMPro Creo Option Modeler Design optionality in Creo Assemblies Creo Options Modeler What's New in Creo 10 What's New in Creo 10 What's New in Creo 10 Tutorials Creo Ansys Simulation Full Ansys based solution embedded in Creo Creo Ansys Simulation Tutorials Creo Composites Creo Composites Creo Composite Tutorials Creo: Things You Might Know But Probably Don't Creo: Things You Might Know But Probably Don;t Creo Tutorials Multi-Axis Milling with Creo NC Multi-Axis Milling with Creo NC Intro to Milling Creo Additive Manufacturing Creo Additive Manufacturing Intro to Additive Manufacturing Creo Patterns Creo Patterns Creo Patterns Tutorials Sketcher Sketcher Sketcher Tutorials Turning Turning Creo 11 Creo 11 Resolving Geometry Issues Resolving Geometry Issues in Creo Parametric Creo: Part Design Intent and Reference Management Creo: Assembly Design Intent and Reference Management Product Insights Advanced Modeling You may also find similar content in our East Coast Webcast Series series.

Jul 19, 2021

Featured Article

Welcome to Creo Tips & Techniques Webcast Series (East Coast) Main Presenters: Lino Tozzi (Technical Specialist, Fellow) and Ryan Butcher (Technical Specialist, Fellow) Below you will find all the related webcast recordings and recommended additional learning resources. Webcast Title Description Learn Online Classes/Resources 1 Learn Online Classes/Resources 2 Creo Multi-Body Design CReo Multi-Body Design Creo Multi-Body Class Info Creo Simulation Live Real time simulation during design Creo Simulation Live Class Info Creo Simulation Live Tutorials Creo Generative Design Automated geometry creation using design criteria Creo: Generative Design Class Info Creo Generative Design Tutorials Creo Flexible Modeling Direct modeling feature to edit imported data Creo: Flexible Modeling Class Info Creo Flexible Modeling Tutorials Creo Advanced Assembly Advance techniques for assemblies Creo Advanced Assembly Class Info Creo Behavioral Modeling Automate design intent Creo Behavioral Modeling Class Info Creo Additive Manufacturing Design for 3D printing Additive Manufacturing Class Info Creo Tolerance & GD&T Creo tolerance & GD&T Creo EZ Tolerance Analysis Tutorials Creo GD&T Advisor Tutorials Creo Surfacing Creo Surfacing-ISDX Surfacing Class Info ISDX Class Info Creo Surfacing continued Creo Surfacing-Freestyle Freestyle Class Info Creo Cabling/HMX Creo Cabling/HMX Creating Harnesses & Routing Cables 1 Creating Harnesses & Routing Cables 2 Creo Mechanism Dynamics Creo Mechanism Dynamics Creo: Assembling with Kinematics Connections Class Info Creo: Mechanism Design and Analysis Class Info Mathcad Express Mathcad Express Mathcad Tutorials Design Exploration & Intelligent Fastener (IFX) Explore multiple design concepts for automatic assembly of fasteners Design Exploration Tutorials Intelligent Fastener Tutorials Tool Design EXT with Mold Analysis Mold design and flow analysis Mold Design Tutorials Prismatic & Multi-Surfaces Prismatic & Multi-Surfaces Creo: Introduction to Milling Class Info Creo: Introduction to Turning - COMING SOON Creo Unite and Import Data Doctor MultiCAD design collaboration Creo Import Data Doctor Class Info Creo Unite Technology Tutorials Plastic Part Design Plastic Part Design Plastic Part Design Large Assembly Management Top Down design Creo: Using Assembly Skeletons for Top-Down Design Class Info Creo Sheetmetal Design Creo Sheetmetal Design Creo Sheetmetal Class Info Creo Sheetmetal Tutorials Reverse Engineering Use scan data to create new part designs Advanced Modeling Techniques Techniques for Sketcher, Selection Sweeps, Deformation, Blends Creo Simulate Advanced Creo based advanced simulation Creo Simulate Advanced Tutorials Creo Render Studio Photo render your models Creo Render Studio Tutorials Creo Parametric Design for Model-Based Definition 3D drawings (model centric designs) Creating Annotations using MBD Modifying & Publishing Annotations using MBD Creo Automation Creo based automation tools: Macros, Programming, Options Modeler Creo Automation Tutorial Creo Data Migration Creo Data Migration Creo Manikin Ergonomic studies with manikins Creo Manikin Tutorials Creo Schematics Routed Systems design for all types of schematics Creo Schematics Class Info Creo Schematics Tutorials Creo View Overview/Interference Lightweight view of CAD designs Creo View Tutorials Creo Clearance & Creepage Analysis Clearance and Creepage analysis for electrical designs Creo Clearance & Creepage Learning Link What's New in Creo 8 & 9 What's New in Creo 8 & 9 What's New in Creo 8 & 9 Tutorials What's New in Creo 8 & 9 Blog ECAD/MCAD Collaboration MCAD designer and ECAD designer collaboration Data Exchange Tutorials PTC University PTC Creo training Advanced Framework Extension Design of steel structures Advanced Framework Extension Tutorials Advanced Framework Ext Tutorial Creo Flow Analysis Creo Flow Analysis Creo Flow Analysis Tutorials Creo Ansys Simulation Full Ansys based solution embedded in Creo Creo Ansys Simulation Class Info Creo Ansys Simulation Tutorials What's New in Creo 9 What's New in Creo 9 What's New in Creo 9 Creo Piping Design 3D routing of piping design Piping Design Tutorial Get Started with Creo Parametric Piping Creo Layout & 2D Sketching Axis concentric design layout in 2D Creo Layout & 2D Sketching Creo Progressive Die Design Design of sheetmetal stamped parts PDX Help Documentation PDX Home Page on B&W's Site Virtual Interconnect Libraries for schematic design Virtual Interconnect Design Automation for Creo Partner automation tool CadActive Creo Automation with Smart Assembly Partner automation tool SIGMAXIM DFMPro Design for Manufacturing (Partner) HCL DFMPro Creo Options Modeler Design optionality in Creo assemblies Creo Options Modeler Tutorial What's New in Creo 10 Whats New in Creo 10 What's New in Creo 10 Tutorials Creo Ansys Simulation Creo Ansys Simulation Creo Ansys Simulation Tutorials Creo Composites Creo Composites Creo Composites Tutorials Creo: Things You Might Know But Probably Don't Creo Things you Might Know But Probably Don't Creo Tutorials Multi-Axis Milling with Creo NC Multi-Axis Milling with Creo NC Creo Multi-Axis Milling Tutorials Additive Manufacturing Additive Manufacturing Intro to Additive Manufacturing Creo Patterns Creo Patterns Creo Patterns Tutorials Sketcher Sketcher Sketcher Tutorials Turning Turning Creo 11 Creo 11 Resolving Geometry Issues Resolving Geometry Issues Creo: Part Design Intent and Reference Management Creo: Assembly Design Intent and Reference Management Product Insights Advanced Modeling You may also find similar content in our West Coast Webcast Series.

Jul 28, 2021

Creo Parametric Tips

FMX: Video - New Sheet Metal specific Flexible Modeling tools to modify Sheet Metal Design Objects

FMX: Video - Exposure of Flexible Modeling tools in Sheet Metal

Did You Know? PTC Creo 3.0 Enhancements: Standard Hardware and Fasteners

RV减速机

Did You Know? Creating Helical Sweeps for Springs

Did You Know? Tips for Fewer Model Failures with Intent References

Creating a relationship between parameters and dimensions.

Points (Offset Coordinate System) & Curve through Points

Family Table problems

Two 3D butterflies - Created and rendered with Creo Parametric 1.0

Who will be next?

Coincident Constraint

Texture assigment with Pro|ENGINEER Wildfire 4.0

Custom 3D text offeset from the surface

3D Datum Axis (3D Center Line) - Any Geometrical Shape

Question mark - rendered in Creo Elements/Pro 5.0 (formerly Pro/ENGINEER)

BMW M6 Cabrio: Rendering of BMW model in Pro|ENGINEER Wildfire 5.0

Creo Tips and Techniques Webcast Series (West)

Creo Tips & Techniques Webcast Series (East)