Course Introduction:
Maintenance Best Practices are critical for every successful individual and company. Maintenance is a unique business process. To be successfully managed, it requires an approach different from other business processes. The program provides a framework for managing maintenance with options that allow decision makers to select the most successful ways to manage maintenance.
The effectiveness of maintenance practice has not improved significantly in many organizations in spite of the implementation of powerful computerized management systems. Measuring, comparing and improving maintenance practice underpins the success of the whole business process.
Course Objectives:
Upon successful completion of this course, the delegates will be able to:
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Identify maintenance best practice key elements for taking action on them, starting with foundations and building up to best practice that will deliver maximum business benefits
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Evaluate practices compared to those of others
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Improve the use of information and communication tools
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Improve productivity through use of better, more timely information
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Understand how world-class organizations solve common maintenance problems
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Improve consistency and reliability of asset information
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Formulate preventive and predictive maintenance strategies
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Optimize planning and scheduling resources
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Develop a proactive maintenance regime within the organization
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Carry out failure analyses thereby avoiding repetitive failures
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Allow tighter control of maintenance budgets by the avoidance of unplanned equipment failures in service
Who Should Attend?
This course is intended for maintenance and reliability managers, maintenance and reliability supervisors, personnel designated as planners, or identified to become planners, team leaders from each maintenance craft, key operations supervisors, materials management managers/supervisors, CMMS administrator or key users, key maintenance support assistants and other stakeholders in the work planning function.
Course Outline:
Day 1:
Pre-Test
An Overview of Maintenance Practice and Benchmarking
Introduction to Maintenance (Asset) Management
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Definitions of key terms
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Types of Maintenance - Reactive, and Proactive
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Maintenance in the Business Process
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Evolution in Maintenance Management
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The Principle of Prioritization
The Concept of Best and Worst Practice
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Why Systems Fail?
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Cases of Failures From Different Industries
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Failure Analysis and Technical Causes of Failures
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Generic Lessons Learned and Improvements
Day 2:
Performance Measures and Improvement
Performance Measure and Benchmarking
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Challenges of Performance Measures
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Performance Measures as a Continuous Improvement Process
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Desirable Features in Maintenance Performance Measures
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Best and Worst Practices in Performance Measures
The Overall Equipment Effectiveness as a Source of Best Practice in Maintenance
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Advantages of OEE as an Improvement Program
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Lean Maintenance through the Use of OEE
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Analysis of the Six-Big Losses
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Case Studies for OEE
Total Productive Maintenance
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TPM Principles
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Old versus New Attitudes
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Key TPM Strategies
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Implementation Plan
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Cases of TPM in Industry
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The Visual Control
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The Concept of Ask Why 5 Times
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Results of Successful TPM Implementations
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Difficulties with TPM
Day 3:
Benchmarking Machines Performance and Failure Analysis
Failure Analysis and Modeling
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Maintenance Work Prioritization
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Failure Modes and Effect Analysis
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Fault Tree analysis
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Risk Priority Number
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The Criticality Matrix
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Equipment Criticality Grading
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Cases from Oil and Gas Industry and others
Modeling Reliability of Systems
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Series and Parallel Systems
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The Redundancy Concept
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Types of Redundancy
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When to Use Redundancy
Benchmarking through Reliability Centered Maintenance
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RCM Background and Fundamental Principles
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Steps for RCM Implementation
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Critical Success Factors for RCM
Day 4:
Condition Based Maintenance
The Condition Based Approach
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What to Monitor and Where
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Condition Monitoring Systems
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Remaining Life Prediction
Vibration Monitoring
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How and Were to Measure Vibration
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Diagnosing Faults Using Vibration
General Purpose CM – Non Destructive Testing – NDT
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Thermal Monitoring & Imaging
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Lubricant Monitoring & Wear Debris Analysis
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Ultrasonic UT
Day 5:
Best Practice Through Manufacturing and Maintenance Systems
MRP and ERP Systems
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What is ERP and how did it develop
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What is MRP System
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What is MRPII System
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Planning and Control
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The Bill of Materials
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Master Production Schedule
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Scope of Decisions
Post Test
Course Certificate:
International Center for Training & Development (ICTD) will award an internationally recognized certificate(s) for each delegate on completion of training.
Course Methodology:
A variety of methodologies will be used during the course that includes:
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(30%) Based on Case Studies
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(30%) Techniques
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(30%) Role Play
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(10%) Concepts
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Pre-test and Post-test
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Variety of Learning Methods
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Lectures
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Case Studies and Self Questionaires
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Group Work
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Discussion
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Presentation
Course Timings:
Daily Course Timings:
08:00 - 08:20 Morning Coffee / Tea
08:20 - 10:00 First Session
10:00 - 10:20 Recess (Coffee/Tea/Snacks)
10:20 - 12:20 Second Session
12:20 - 13:30 Recess (Coffee/Tea/Snacks)
13:30 - 15:00 Last Session