Learning Objectives

  • Taking a more detailed view and expanding on the key Reliability Methods, this course provides an alternative to the basic 1-day REL101 introduction course and instead provides a deep dive into all the main tools which the Reliability Engineer should be equipped with.
  • Covering 2-days of methodology learning with interactive exercises, this course provides a strong foundation of the essential reliability and maintainability concepts and principles.
  • Learn which key methods and tools to employ to achieve reliability improvement across the asset lifecycle.
  • Know what the objectives are of reliability management and how the reliability discipline interacts with the rest of the organization.

Key Learnings

  • This interactive, practical course addresses the integration of a range of reliability initiatives into an asset management strategy. You'll discover the tools necessary to develop, implement, and sustain best in class maintenance and reliability programs. You'll learn the foundational elements your organization needs in order to reduce reactive maintenance, downtime, and maintenance costs with proven reliability methods.

Why you should attend

  • Suffering high maintenance costs and unplanned downtime
  • Want immediate performance improvement and to reduce costs, but don’t know where to start
  • Experiencing recurring problems and/or lack of confidence in current solutions
  • Continually under-performing due to current design not meeting business goals
  • Consistently exceeding your maintenance budget
  • Unsure of where your reliability program is currently at
  • You are new to reliability engineering
  • You are looking to get your team started and reliability programs ramped up

FAQs

Duration and Delivery arrow icon
  • 2-day face-to-face classroom, or
  • 16-hours remote web conferencing (typically over 4-days)

Who should attend? arrow icon

Graduate Engineers, Project Engineers, Asset Managers, Maintenance Engineers, Design Engineers, Reliability Engineers/Technicians, Operators, Safety Engineers, Risk Engineers, Defect Elimination Managers


Program arrow icon

Day 1

  • Reliability Concepts
  • Breaking The Reactive Cycle
  • Benefits of Reliability Based Maintenance
  • Definition of Reliability Terms
  • Deep dive into key Reliability Engineering Tools: 
    • Failure Mode Effects & Criticality Analysis (FMECA)
    • Weibull Distribution Analysis
    • Reliability Centered Maintenance (RCM)

Day 2

  • Deep dive into key Reliability Engineering Tools (continued): 
    • Life Cycle Costing (LCC)
    • Availability & Capacity Modelling using RBD
    • Asset Criticality
    • Root Cause Analysis (RCA)
    • Performance Measures (ROI, OEE)
    • Fault Tree Analysis (FTA)
    • Event Tree Analysis (ETA)
    • Reliability Prediction

Benefits arrow icon

Provides a strong foundation for reliability growth across all levels


Languages arrow icon
  • English
  • (Spanish)

Learning Path arrow icon

Prerequisites: None 

Next Steps: Method specific courses e.g. Failure Mode, Effects and Criticality Analysis FMECA101, Maintenance Strategy Development RCM201, Improving Plant Availability using Reliability Block Diagrams RBD101

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