Introduction to ANSYS Explicit STR and Autodyn Part I

Date November 18, 2013 - November 19, 2013 (2 days)
Location

ANSYS Horsham
Suite 1, 3 Horsham Gates
North Street
Horsham, WSX RH13 5PJ
United Kingdom 
PHONE: 44 (0) 1403270066
FAX: 44 (0) 1403270099
www.ansys-uk.com
Info-horsham@ansys.com
Fee£900 GBP
RegistrationCLICK HERE

More Information:

Length: 2 Days

Prerequisites

  • A basic knowledge of dynamics and strength of materials (material modeling) is highly recommended.
  • Knowledge of the physics of transient dynamics events is also recommended.
  • A basic Knowledge of ANSYS Mechanical in Workbench is advantageous but not required.
  • This course is generally considered to be a prerequisite to the ANSYS Autodyn Part II, 2 day training course.

Course Description

This course is designed for new users who want to become proficient with ANSYS Explicit STR in
ANSYS Workbench. You will focus on learning core-modeling skills in this comprehensive, hands-on
course. After completing the course you will be well prepared to work effectively on a wide
range of transient dynamics applications from low velocity drop tests through to high velocity
ballistic impacts.

Format

This is a two-day course for Explicit STR in Workbench held at our offices around the world at regular intervals throughout the year.

Course Outline

  1. Introduction to Explicit STR
    •    Explicit vs. Implicit
    •    Explicit applications
    •    Explicit Stability Time step
    •    Wave propagation
    •    Shockwaves
    •    Non-linear response
    •    Explicit solution strategy
    •    Element formulations
  2. Introduction to Workbench
    •    User Interface
    •    CAD Interface
    •    Geometry Import
  3. Engineering Data
  4. Explicit Dynamics Basics
    • Hands-on (Cylinder Impact)
  5. Results Processing
    • Hands-on
  6. Explicit Meshing
    • Hands-on (Can Crush)
  7. Body Interactions
    • Hands-on (Breakable Bonded Contact)
  8. Analysis Settings
    • Hands-on (Mass Scaling, Can Crush)
  9. Material Models
    •    Equation of State
    •    Material strength
    •    Material failure
    •    Concrete, hyper-elastic and orthotropic materials
    •    Hands-on (Wave Propagation)
  10. Optimization Studies
    •    What If Study
    •    Design Explorer
    •    Hands-on (What If Study, Cylinder Impact)

 


Additional Course Dates and Locations

June 17, 2013 UK,Horsham
September 09, 2013 UK,Horsham