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This month’s challenge is based on a modeling problem I’ve seen throughout my decades in aerospace. An isogrid is a repeating rib structure that adds strength with low additional mass. Although it may appear simple, modeling it in CAD can be difficult, especially when you need to place it on a non-planar surface.
Public domain image courtesy of NASA and Wikimedia Commons.
Your mission, if you choose to accept it, is as follows:
For this challenge, you can choose to ignore the center circular post and hole as depicted in the pictures. You can focus on the vertical sides of the isogrid triangles. (Of course, you can always challenge yourself by including those circular posts and holes.)
How would you do this in Creo Parametric? Would you use a profile rib, trajectory rib, extruded protrusion, extruded cut, datum curves, surfaces, pattern, toroidal bend, or some other feature? (Most likely, it would be a combination of two or more of these.) The sides of the triangles in the isogrid can either be connected or they can be disjointed (as in the image below).
An optional Creo Parametric 2.0 model has been attached with a radome part model as a starting point if you choose to use it. As creating the isogrid all the way to the tip can be challenging to say the least, a suppressed Solidify feature has been included that removes it.
Public domain image courtesy of Wikimedia Commons.
Please submit a part or zip file of your submission as a reply to this post and indicate which version of Creo Parametric was used to create it. Also, please include an image in your reply to this post. This challenge will close on Friday, November 6th.
Example of a radome on the nose of an aircraft. Image courtesy of Kentaro Iemoto and Wikimedia Commons shared under CC BY-SA 2.0.
Additional examples of isogrids on curved surfaces can be found here and here.
Find the PTC Creo Community Challenge Guidelines here!
Thank you to all our participants and people following the challenge. The results blog will be posted in about a week. Stay tuned for the next challenge scheduled to open on November 13th!
Hello fellow engineers! Unfortunately, I have missed this challenge. However, I still would like to share some of my work. This is not an aerospace problem (not a rocket science:) and I am sharing this to simply demonstrate how CREO helped me one day.
I once faced a similar problem with producing a grid, working for plastic roto-moulding facility that produces outdoor furniture. There was a challenging moment with making a tufted couch. I was really amazed how powerful is CREO with patterns. I attach pictures below.
Simply wanted to share my case and say thanks to CREO team. Great product that allows one to create whatever he or she wants.
Thanks to everyone who participated in the 2nd Creo Community Challenge! Participant badges have been delivered to all who submitted!
Dave's solutions blog is now live on ptc.com: Isogrid on a Curved Surface Solutions
Challenge 03: Isogrids is now live and submissions are open until December 22nd. Give it a try!