In part 1 for Making a new motorcycle blinker using Topology Optimization, we showed you how one of our staff engineers used NX topology optimization features to create a new design for a busted motorcycle blinker.

In this followup part two tutorial, we show you how to use convergent modeling tools such as Snip Facets and Fill Holes to clean up the data, smoothing out both the design and your eventual product. By doing this you're improving your product and possibly saving on material before fabrication.

In this NX tutorial video we show you how to use Convergent Modeling tools in NX to improve your parts created from topology optimization results. We go into the Polygon Modeling environment using Subdivide, Snip, and Fill Hole as well as Transition and a Local Offset.

Our example demo starts with a multi-piece bracket created from a set design space and working with the result, we’ll make some modifications. After creating our bracket, we find a few less-than-ideal results that we could improve. We find a spindly leg with thin margins, a sharp edge, and a little hole. All of these are going to slow the fabrication of our part. Plus they just look a little silly.

Affected Software: NX 12.0.0
Scope: Windows 64-Bit

We are pleased to inform you that NX 12.0.1 is now available for download from the Siemens PLM download server. NX12.0.1 is an accumulation of fixes and small enhancements built for installation on top of Windows 64-bit and Linux 64-bit for NX 12.0.0.  

In this tutorial we look at NX Open, show you the value, and show what you can do with it. We also show examples of automation, and how to get started with NX Open methods such as journaling/capturing processes.

What can you do with the NX Open tool kit? These are the three basic concepts of what you can do with NX Open:

  • Automate complicated and repetitive tasks within the NX environment
  • Customize the NX environment to your specific industry, product or process needs
  • Integrate with third party applications and platforms

Going further, NX Open is a set of libraries and classes that allow a user to integrate with an ERP to work with NX. Users can also achieve a great level of customization. Some examples of what you can automate include creating and editing geometry; transforming, rotating, plaining solid bodies; creating points, center lines; updating expressions in parametric parts; and pulling data from part files to analyze for design validation or verification processes. We also discuss some of the NX customization & automation services that we provide.

We held this webinar on Weds., August 15, 2018

When you’re a mechanical engineer, and you have access to great CAD & a cutting-edge 3D printer, how do you fix the busted blinker on your motorcycle?

Using new Topology Optimization features in NX of course! Includes a walkthrough tutorial of using Topology Optimization in NX CAD.