course | Advanced Vibrations Analysis and Control
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MEC-1678 | Advanced Vibrations Analysis and Control
Course Sector : Mechanical Engineering
| Duration | Date from | Date to | Course Venue | Course fees | Book a course |
|---|---|---|---|---|---|
| 5 Days | 2025-04-21 | 2025-04-25 | Dubai | $4,250 | Book now |
| 5 Days | 2025-08-25 | 2025-08-29 | Baku | $4,950 | Book now |
| 5 Days | 2025-12-22 | 2025-12-26 | Dubai | $4,250 | Book now |
Course Introduction
Advanced vibrations analysis and control are critical to the design, maintenance, and performance of mechanical systems. Vibrations can lead to excessive wear, fatigue, and even failure in machines, which is why understanding vibration behavior and controlling it is vital for engineers. Advanced vibration analysis helps engineers diagnose problems early, optimize system performance, and extend the lifespan of equipment. In industries such as aerospace, automotive, and energy, controlling vibrations is crucial to ensuring safety, reliability, and operational efficiency. This course provides the skills needed to analyze, model, and control complex vibration systems in advanced mechanical applications.
This program will cover advanced techniques in vibration analysis, including modal analysis, resonance, and damping. Participants will learn about state-of-the-art tools and methods for detecting and controlling vibrations in mechanical systems. The course will explore various types of vibration excitations and their impact on system performance.
Course objective
- Master advanced vibration analysis techniques and understand their applications in mechanical systems.
- Learn how to conduct modal analysis and interpret vibration modes and frequencies
- Gain knowledge in advanced vibration measurement methods and signal processing techniques.
- Understand and apply both passive and active vibration control methods for various mechanical systems.
- Develop the skills to analyze and control vibrations in complex systems to improve performance and reliability.
Course Outline | 01 DAY ONE
Fundamentals of Advanced Vibration Analysis
- Review of basic vibration principles and terminology
- Types of mechanical vibrations (free, forced, transient)
- Single-degree-of-freedom (DOF) vs multi-degree-of-freedom systems
- Natural frequency and resonance phenomena
- Damping in mechanical systems: types and effects
- Vibration measurement techniques (accelerometers, displacement sensors)
Introduction to Fourier analysis for vibration signals
Course Outline | 02 DAY TWO
Modal Analysis and Vibration Mode Shapes
- What is modal analysis?
- Conducting modal analysis: theory and methods
- Identifying vibration modes and mode shapes
- Frequency response functions (FRF) and their significance
- Experimental modal analysis (EMA) and operational modal analysis (OMA)
- Techniques for extracting modal parameters (frequency, damping, mode shapes)
Course Outline | 03 DAY THREE
Advanced Vibration Measurement and Signal Processing
- Vibration data acquisition systems and sensors
- Signal conditioning and filtering for vibration analysis
- Fast Fourier Transform (FFT) and its applications
- Time-domain vs frequency-domain analysis
- Spectral analysis and interpretation of vibration data
- Data visualization techniques for vibration analysis
Course Outline | 04 DAY FOUR
Vibration Control Techniques: Active and Passive Methods
- Introduction to vibration control and its importance
- Passive vibration control: dampers, isolators, and absorbers
- Active vibration control: principles and applications
- Piezoelectric and electrodynamic actuators in vibration control
- Feedback control systems for vibration suppression
- Semi-active control systems (magnetorheological dampers)
Course Outline | 05 DAY FIVE
Vibration Analysis and Control in Complex Systems
- Vibration analysis in rotating machinery and structures
- Identifying and mitigating resonance in complex systems
- Multi-body dynamics and coupled vibrations in mechanical systems
- Vibration isolation for sensitive equipment
- Control of vibration-induced fatigue and wear
- Integration of vibration control into system design
BOOST’s Professional Attendance Certificate “BPAC”
BPAC is always given to the delegates after completing the training course,and depends on their attendance of the program at a rate of no less than 80%,besides their active participation and engagement during the program sessions.
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