Advanced Machinery Failure Analysis and Prevention

Top Learning objectives:

• Protect and enhance values of your plant machinery with field-proven failure analysis techniques, condition monitoring technologies and reliability centered maintenance
• Develop root cause analysis techniques for providing next generation proactive maintenance, eliminating recurring faults and failures, and delivering maximum business benefits
• Discover the most effective risk assessment techniques for machinery failures and advanced risk-based machinery inspection for achieving maximum uptime and minimising risks
• Learn best practice implementation of advanced methods for machinery failure analysis and prevention and root cause analysis for most rotating and reciprocating plant machinery
• Apply advanced machinery fault diagnosis and optimum combination of proactive tasks and default actions for machinery failure prevention
• Discover systematic and structured analysis of machinery functional and potential failures, hidden and evident failures, effects and consequences
• Integrate a highly effective root cause analysis of machinery faults/ failures providing next generation proactive maintenance

Machinery failure analysis and prevention using structured and systematic approaches are critical for every successful plant. This course is designed to build competency in machinery failure analysis and prevention in order to enhance machinery reliability and availability and overall plant productivity. It covers all the fundamentals, systematic and structured practical approaches, methods and applications that a professional would use in carrying out fully functional plant maintenance. In summary, the course provides a step-by-step practical guide to best practices of machinery failure analysis and prevention that will deliver maximum business benefits.

This training course is based on 35 years of real-life industrial experience of the trainer in machinery failure analysis and prevention.

The course covers:

• Systematic and structured analysis of machinery functional and potential failures, hidden and evident failures, failure modes, effects and consequences
• Advanced failure analysis techniques and 9 steps of the classical failure analysis
• Advanced machinery fault diagnosis and optimum combination of proactive tasks and default actions for machinery failure prevention
• A highly effective root cause analysis of machinery faults/ failures providing next generation proactive maintenance
• Failure mode and effect analysis (FMEA) and failure mode, effect and criticality analysis (FMECA)
• Effective field-proven condition monitoring technologies (i.e. vibration, acoustic emission, infrared thermography and wear debris) that should be used to detect, locate, diagnose and assess severity of faults in machinery
• The most effective risk assessment techniques for machinery faults/failures and principles of advanced risk-based inspection for machinery failure prevention
• The best-of-class reliability centered maintenance, an efficient practical framework for machinery fault/ failure prevention
• Practical implementation of advanced methods/ technologies for machinery failure analysis and prevention and root cause analysis of machinery fault/failure via 52 industrial case studies

GROUP RATE PROMO: Companies sending 3 or more delegates to the course will be eligible for a 10% discount off the regular training fee.

Get more information about the course by getting a copy of the course brochure. Request a copy or CONTACT US:

Tel: +65.62978545

Email: [email protected]

• A world-renowned maintenance expert with over 35 years of real-life industrial experience
• Author of over 200 publications in the areas of maintenance, condition monitoring of complex mechanical systems and root cause analysis
• The British Institution of Non-destructive Testing established “The Len Gelman Award” for the best paper at the annual International Conference on Maintenance and Condition Monitoring Destructive Testing, UK, 2017