Resource

Additive Manufacturing with NX Tutorials

These tutorials will have your students making the most of NX Additive Manufacturing functionality with step-by-step instructions for topology optimization, multipart design, polygon modeling, and print file generation. Explore the details of wall thickness, minimum radii, overhangs, supports, and mounts, covered both in text/images and short screen-captured demonstrations. Upon completion of this material, your students will be able to:

  • Perform topology optimization on a CAD part
  • Understand topology optimization as a modeling application perspective

Download the Curriculum Package

We're Sorry!

There was an error with the page submission. Please try again.

Thank you, your information has been received.

Download the NX Tutorials - Additive Manufacturing with NX Start Here

First time signing up? Please be sure to confirm your opt-in with the email you'll receive shortly.

Please download all the files and extract them to a common directory.

Field is required A valid email address is required
Field is required Invalid value or too long
Field is required Invalid value or too long
Field is required Invalid value or too long
Field is required Invalid value or too long
Field is required Invalid value or too long
Field is required Please add a valid phone number
Field is required Invalid value or too long

Notice: The curriculum package on this website may be downloaded and used for educational purposes only and not for commercial use. If you violate these terms and conditions, your access may be terminated immediately without notice, in addition to any other available remedies.

Field is required

These tutorials will have your students making the most of NX Additive Manufacturing functionality with step-by-step instructions for topology optimization, multipart design, polygon modeling, and print file generation. Explore the details of wall thickness, minimum radii, overhangs, supports, and mounts, covered both in text/images and short screen-captured demonstrations. Upon completion of this material, your students will be able to:

  • Perform topology optimization on a CAD part
  • Understand topology optimization as a modeling application perspective