Eliminating Vibrations: Optimizing Mass Dampers with Simulation and Testing
Discover how cutting-edge transient structural analysis and experimental testing can solve even the toughest challenges in this upcoming presentation.
DATE / TIME:
April 9, 2025
10 AM EDT / 4 PM CEST / 7:30 PM IST
Venue:
Virtual
Sign Up
Overview
This webinar will showcase how transient structural analysis and experimental testing optimized a mass damper to reduce vibrations in a robot support beam. Experimental tests revealed a tendency for the beam to vibrate when the mobile robot installed on it was in motion. Through a combined approach of simulations and experimental data, the root cause of the issue was identified, leading to the design of an optimized mass damper. This solution successfully mitigated harmful vibrations, ensuring the stability and performance of the support structure.
Attendees will gain insights into the methodology, from integrating experimental data into simulation workflows to the iterative process of fine-tuning a practical solution. This session is a must for engineers looking to enhance system stability and effectively address vibration-related challenges.
Key Points:
- Transient structural analysis for vibration reduction
- Integration of experimental data with simulation workflows
- Optimizing mass dampers for structural stability
- Identifying and addressing vibration-related challenges
- Coupled approach: simulation and experimental validation
What attendees will learn
- Transient structural analysis techniques for vibration mitigation
- Experimental data integration in simulation workflows
- Mass damper design and optimization strategies
- Coupled simulation and testing methodologies
- Vibration control for enhanced structural stability
Who should attend
Student, industry, CAE expert
Speakers
Davide Mavillonio, Lorenzo Mosenich, Davide Fugazza, Stefano Rota