We have an exciting announcement about badges coming in May 2025. Until then, we will temporarily stop issuing new badges for course completions and certifications. However, all completions will be recorded and fulfilled after May 2025.

Ansys Innovation Space

FREE STUDENT SOFTWARE

Why are linear elements better at handling high distortions than quadratic elem?

- February 1, 2023 at 1:41 am
  
  helen.durand
  Subscriber
  
  Hello, I am running transient structural simulations and have been comparing linear versus quadratic elements.
  According to "How to Handle Element Distortion Errors in Hyperelastic Materials — Lesson 3" (Located at /courses/index.php/courses/topics-in-hyperelasticity-using-ansys-mechanical/lessons/how-to-handle-element-distortion-errors-in-hyperelastic-materials-lesson-3/ or alternately at https://www.youtube.com/watch?v=fI2a_xP0veI): "Linear elements are a better choice in this case as they can experience more distortion before becoming so highly distorted that they can no longer be mathematically valid for the solution"
  Why can linear elements handle more distortion than quadratic elements?
  Thank you!
- February 1, 2023 at 11:26 pm
  
  wrbulat
  Ansys Employee
  
  Hi Helen,
  Quadratic elements have midside nodes, linear elements do not. When quadratic elements become severely distorted, sometimes the displaced location(s) of the midside nodes introduce sharp bends in the element edges on which they reside, or they may pass through the domain of the element and penetrate a face on the opposite side of that element. A linear mesh is often less susceptible to "mesh entanglement" than a quadratic one because linear elements do not have the midside nodes that are at times responsible for excessive element distortion.
  Kind regards,
  Bill

Viewing 1 reply thread

The topic ‘Why are linear elements better at handling high distortions than quadratic elem?’ is closed to new replies.