PTC Creo Simulate Training: Dynamic FEA
Design for "Shock & Vibration" with Creo Simulate Dynamic FEA Training
2 Day Class
$1700
Location: mHUB Chicago
965 W. Chicago Ave., Chicago, IL 60642
This Creo Dynamic FEA Training Class is an advanced course focused on teaching the fundamentals of Dynamics using PTC Creo Simulate. To sign up for this public class, register using the link to the right. For private classes, custom curriculum, or more general information about our classes, please contact us.
Class Objective:
The primary objective of this PTC Creo Simulate Training class is to teach participants Structural Dynamic Analysis using the PTC Creo Simulate platform. Thus, upon completion of this course, participants will be able to set up, solve, and diagnose their own Shock and Vibration Analyses in Creo Simulate.
Applicable Software:
PTC Creo Parametric with the “Advanced Simulation Extension”
Topics Covered:
• Fundamentals of Vibration and Equations of State
• Statics vs. Dynamics in FEA Capabilities
• Time-based and frequency-based FEA approaches
• Using a Modal Analysis to optimize your design
• Dynamic Methodologies: Harmonic Vibration, Shock, Random Vibration, and Drop Test.
• Implicit vs. Explicit FEA
• Using FEA simplifications like Springs, Point Masses, and Constraint Equations.
After this class you will:
• The role of Dynamic FEA in Product Development
• Time Management, Troubleshooting, and Gaining Confidence as an FEA “Dynamicist”
• Best Practices in Analyzing Parts, Assemblies, and Managing Complex Geometries.
• Using a Modal Analysis to optimize your design
• Communicating with both Qualitative and Quantitative Results Post-processing
• Creating Sensors and Utilizing Design Optimization Techniques
• Finally, applications include CNC Machined Components, Sheet Metal, Plastic, Aerospace, Automotive, Consumer Electronics and more!
Who Should Attend:
This class is specifically tailored for those with a technical background and prior experience using PTC Creo Simulate and Analyzing Static Structural FEA. Therefore, an engineering degree is not a prerequisite, however, it is strongly recommended. As always, an open mind, a creative spirit, and a strong Quantitative Comprehension of Mechanics of Materials are necessary!
This class taught me the value of both qualitative and quantitative results and to apply my engineering fundamentals to verify the results - Mike C.
About Fastway
Fastway Engineering provides in-demand CAD/CAE consulting services and world-class CAD/CAE training to the aerospace and defense, automotive, manufacturing and automation, medical and electronics industries. By focusing on the fundamentals and working alongside many different software brands, Fastway is dedicated to "Bridging the Gap" between Academia and Industry.
About The Instructor
Jim Shaw has over 15 years of engineering experience, and is a leading expert in the application of CAD, FEA, and CFD. As a consultant and a trainer, Jim has raised the bottom line of dozens of companies and enriched the careers and capacities of hundreds of students. Jim first learned Pro/Engineer in 1999, was a CAD administrator during the Wildfire era and now enjoys teaching Creo all over the U.S.
Registration Policy
Registration is on a first-come, first-served basis and continues until a class is filled. If you cancel forty-five (45) days or more before the beginning of a class, you will receive a refund, minus a $250 cancellation fee. If you cancel later than forty-five (45) days before the beginning of the class, there is no refund of any kind.
If it is necessary for Fastway Engineering to cancel a class, students will be notified and offered another class or a full refund. Fastway Engineering cannot be responsible for nonrefundable airline tickets or lodging. Students are urged to not make any travel arrangements until a class has been confirmed. Registrations are transferable to another person only if the workshop does not have a waiting list. If you wish to transfer your registration, please contact us to inquire.
Cancellation and transfer requests must be made by calling our office at 312-620-9891