Online/ e-LMS
Self Paced
Moderate
1 Month
About
The Vibration Analysis and Control Engineering Program combines theoretical foundations with practical applications in vibration control, addressing the growing need for engineers skilled in reducing unwanted vibrations in mechanical, structural, and industrial systems. Covering topics from vibration theory to advanced control techniques, participants will work with simulation tools and real-world projects to analyze and control vibrations in systems ranging from machinery to complex structures.
Aim
This program equips participants with advanced knowledge and skills in vibration analysis and control engineering, focusing on the analysis, modeling, and mitigation of vibrations in mechanical systems. Participants will gain expertise in diagnosing vibration issues, designing solutions, and implementing control strategies to improve system stability and longevity.
Program Objectives
- Understand fundamental vibration theory and its applications in mechanical systems.
- Develop skills in modeling, measuring, and analyzing vibrations.
- Gain proficiency in vibration control techniques for machinery and structures.
- Learn to apply both passive and active control methods for vibration suppression.
- Complete a capstone project demonstrating comprehensive vibration analysis and control.
Program Structure
Module 1: Fundamentals of Vibration Theory
- Overview: This module introduces vibration theory, covering basic concepts and principles of vibration in mechanical systems.
- Topics Covered:
- Free and forced vibrations
- Natural frequencies and resonance
- Simple harmonic motion and damping
- Project: Analyze the natural frequencies and resonance points of a mechanical component, identifying potential issues.
Module 2: Modal Analysis and Dynamic Behavior of Systems
- Overview: Learn the principles of modal analysis, focusing on analyzing the dynamic behavior of mechanical structures.
- Topics Covered:
- Modal analysis and mode shapes
- Dynamic response of structures
- Applications of modal analysis in mechanical engineering
- Project: Conduct a modal analysis on a structural component, identifying mode shapes and evaluating dynamic behavior.
Module 3: Damping Techniques and Vibration Control
- Overview: Explore various damping methods and vibration control techniques to reduce unwanted vibrations in mechanical systems.
- Topics Covered:
- Types of damping (viscous, Coulomb, hysteretic)
- Passive and active vibration control methods
- Control of vibrations in rotating machinery and vehicles
- Project: Design a damping system to control vibrations in a rotating machine, optimizing for stability and longevity.
Module 4: Advanced Vibration Analysis and Control Applications
- Overview: Delve into advanced techniques in vibration analysis and control, focusing on applications in critical industries like aerospace and automotive.
- Topics Covered:
- Finite element analysis (FEA) for vibration analysis
- Vibration control in aerospace and automotive applications
- Real-time monitoring and control in high-stress environments
- Project: Implement a vibration control system for an automotive or aerospace application, focusing on dynamic response and safety.
Module 5: Capstone Project in Vibration Analysis and Control
- Overview: Apply your skills in a capstone project, where you’ll design and implement a vibration control solution for a real-world application.
- Project Options:
- Develop a vibration control system for an engine mount, reducing vibration transmission.
- Design a damping solution for a bridge or building structure to improve stability during dynamic loading.
- Create a vibration monitoring system for manufacturing equipment, optimizing for precision and stability.
- Outcome: Complete a comprehensive vibration analysis and control project, demonstrating your expertise in managing mechanical vibrations.
Participant’s Eligibility
- Mechanical and Structural Engineers: Seeking specialized skills in vibration analysis and control.
- Engineering Students and Graduates: Interested in vibration theory, modal analysis, and damping techniques.
- Professionals in Automotive, Aerospace, and Manufacturing: Looking to enhance system stability, reduce wear, and extend the lifespan of mechanical components.
Program Outcomes
- Proficiency in vibration analysis techniques and control strategies.
- Practical knowledge of FEA and signal processing for diagnosing vibrations.
- Experience with both passive and active control systems in real-world applications.
- Skills to design, model, and optimize systems for vibration suppression.
Fee Structure
Standard Fee: INR 9,998 USD 298
Discounted Fee: INR 4999 USD 149
We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!
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Key Takeaways
Program Assessment
Certification to this program will be based on the evaluation of following assignment (s)/ examinations:
Exam | Weightage |
---|---|
Mid Term Assignments | 50 % |
Project Report Submission (Includes Mandatory Paper Publication) | 50 % |
To study the printed/online course material, submit and clear, the mid term assignments, project work/research study (in completion of project work/research study, a final report must be submitted) and the online examination, you are allotted a 1-month period. You will be awarded a certificate, only after successful completion/ and clearance of all the aforesaid assignment(s) and examinations.
Program Deliverables
- Access to e-LMS
- Real Time Project for Dissertation
- Project Guidance
- Paper Publication Opportunity
- Self Assessment
- Final Examination
- e-Certification
- e-Marksheet
Future Career Prospects
- Vibration Analysis Engineer
- Control Systems Engineer
- Structural Dynamics Analyst
- Reliability Engineer
- Mechanical Systems Analyst
- Product Development Engineer
Job Opportunities
- Industries requiring vibration diagnostics and control for machinery, such as manufacturing, automotive, and aerospace.
- Engineering firms focused on structural stability and dynamic systems analysis.
- Research and development roles in advanced vibration control technologies.
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