Strategic Procurement, Logistics, and Supply Chain Excellence Thailand

Reliability-Centred Maintenance Training Course

Reliability-centred maintenance is a structured method for deciding which maintenance tasks actually protect function, reduce failure consequences, and justify cost in real operating assets. It is commonly applied through the seven questions of RCM and supported by tools such as FMEA and decision logic trees, while modern maintenance teams also face pressure from CMMS data quality gaps, automation, and the growing use of predictive analytics. Reliability-centred maintenance is a disciplined approach to selecting maintenance tasks based on asset functions, functional failures, failure consequences, and task effectiveness. It enables professionals to identify critical failure modes, choose preventive or condition-based actions, and produce defensible maintenance plans.

This advanced 5-day course is designed for reliability engineers, maintenance planners, asset integrity specialists, maintenance managers, and plant engineers who need to turn unreliable equipment performance into a clear RCM worksheet, task hierarchy, and execution roadmap. You will leave with practical outputs such as an asset criticality screen, FMEA worksheet, maintenance task selection matrix, and implementation plan that you can adapt to your own plant or fleet.

Duration
5 Days
Duration
Certificate
Certificate
Included
Delivery
Instructor-Led
Delivery
Level
Advanced
Level
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Classroom Training

In-person sessions at premier locations

Nairobi Kenya
Mon - Fri
5 Days
USD 1,600
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Kigali Rwanda
Mon - Fri
5 Days
USD 1,900
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Dubai United Arab Emirates (UAE)
Mon - Fri
5 Days
USD 4,100
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Zanzibar Tanzania
Mon - Fri
5 Days
USD 2,400
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Location Duration Fee Language
Nairobi, Kenya Mon - Fri (5 Days) USD 1,600 English See dates & reserve →
Kigali, Rwanda Mon - Fri (5 Days) USD 1,900 English See dates & reserve →
Dubai, United Arab Emirates (UAE) Mon - Fri (5 Days) USD 4,100 English See dates & reserve →
Zanzibar, Tanzania Mon - Fri (5 Days) USD 2,400 English See dates & reserve →
Abuja, Nigeria Mon - Fri (5 Days) USD 2,800 English See dates & reserve →
Addis Ababa, Ethiopia Mon - Fri (5 Days) USD 2,400 English See dates & reserve →
Mombasa, Kenya Mon - Fri (5 Days) USD 1,700 English See dates & reserve →
Cape Town, South Africa Mon - Fri (5 Days) USD 3,900 English See dates & reserve →
Johannesburg, South Africa Mon - Fri (5 Days) USD 3,500 English See dates & reserve →
Kampala, Uganda Mon - Fri (5 Days) USD 1,900 English See dates & reserve →
Pretoria, South Africa Mon - Fri (5 Days) USD 3,300 English See dates & reserve →
Lagos, Nigeria Mon - Fri (5 Days) USD 2,500 English See dates & reserve →
Arusha, Tanzania Mon - Fri (5 Days) USD 2,000 English See dates & reserve →
Dar es Salaam, Tanzania Mon - Fri (5 Days) USD 1,900 English See dates & reserve →
Accra, Ghana Mon - Fri (5 Days) USD 3,800 English See dates & reserve →
Bangalore, India Mon - Fri (5 Days) USD 4,200 English See dates & reserve →
Muscat, Oman Mon - Fri (5 Days) USD 4,300 English See dates & reserve →
Naivasha, Kenya Mon - Fri (5 Days) USD 1,700 English See dates & reserve →

Live, instructor-led sessions you can join from anywhere — pick the next start date below.

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RCM-02 Weekend (4 Weeks) USD 850 Reserve my seat → Reserve team seats →
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RCM-02 Weekend (4 Weeks) USD 850 Reserve my seat → Reserve team seats →
RCM-02 Mon - Fri (5 Days) USD 850 Reserve my seat → Reserve team seats →
RCM-02 Mon - Fri (5 Days) USD 850 Reserve my seat → Reserve team seats →
RCM-02 Mon - Fri (5 Days) USD 850 Reserve my seat → Reserve team seats →
RCM-02 Mon - Fri (5 Days) USD 850 Reserve my seat → Reserve team seats →

Our instructor comes to your office — same curriculum and accredited certificate, with case studies built around the work your team actually does.

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What You'll Master in This Training

Built by industry pros — practical insights, real-world examples, and strategies you can apply immediately.

Module 1: RCM Foundations and Asset Criticality

  • RCM definition and operating context
  • Asset functions and performance standards
  • SAE JA1011 evaluation principles
  • Maintenance strategy roles in asset integrity
  • Criticality ranking for equipment selection
  • Exercise: Create an asset criticality screen
  • FMEA structure for maintenance decisions
  • Functional failures and failure effects
  • Failure mechanisms and cause mapping
  • Consequence categories and cost of failure
  • Using failure data and CMMS history
  • Exercise: Build an FMEA worksheet
  • The seven RCM questions
  • Decision logic tree analysis
  • Hidden failures and failure-finding checks
  • Run-to-failure decision criteria
  • Exercise: Design a decision logic tree
  • PM task effectiveness
  • Interval setting and task frequency
  • Time-based overhaul limitations
  • One-time tasks and restoration logic
  • Maintenance task optimisation using reliability evidence
  • Exercise: Redesign a PM task set
  • On-condition inspection planning
  • Predictive maintenance data inputs
  • Vibration and oil analysis use cases
  • Ultrasound and thermography applications
  • CMMS data readiness for condition monitoring
  • Exercise: Draft a CBM task plan
  • MTBF and MTTR interpretation
  • Failure data quality and completeness
  • Pareto analysis for recurring failures
  • Trend analysis in Excel or CMMS exports
  • AI-assisted anomaly detection awareness in maintenance analytics
  • Exercise: Build a reliability KPI dashboard
  • Stakeholder mapping for RCM approval
  • Maintenance policy and governance alignment
  • CMMS work order coding and task libraries
  • Shutdown planning and resource constraints
  • Reporting to operations and leadership
  • Exercise: Create an RCM implementation roadmap

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About the Course

Organizations invest in maintenance because they need results they can prove in asset availability, failure consequence control, and lifecycle cost discipline. In reliability-centred maintenance, those results must stand up to FMEA logic, the seven RCM questions, and the operational reality of maintenance execution. You need to demonstrate asset function analysis, failure mode identification, task selection, consequence evaluation, and maintainability judgement, not just general maintenance awareness.

This course turns scattered maintenance knowledge into a structured RCM system you can apply to real equipment. You will develop capability in functional block diagrams, failure modes and effects analysis, RCM decision logic, PM optimisation, condition-based maintenance selection, CMMS task structuring, criticality ranking, and implementation planning. In practical terms, you will learn how to build an RCM worksheet, complete a failure modes and effects analysis, and create a defensible maintenance task strategy for selected equipment. You will practice the core methods hands-on, while more advanced topics such as predictive analytics integration and reliability-centred maintenance governance will be introduced at operational level rather than treated as full engineering design work.

Asset-intensive operations rarely have ideal data, unlimited shutdown windows, or spare engineering capacity. You will see how to apply reliability-centred maintenance when failure history is incomplete, maintenance budgets are constrained, and production priorities compete with reliability objectives. This course is built for professionals who must deliver credible decisions under those conditions and explain them clearly to operations, engineering, and leadership stakeholders.

Target Audience

This course is designed for professionals who already work with maintenance strategy, equipment reliability, or asset performance decisions and need a sharper RCM method for real operations.

  • Reliability Engineers managing functional failure analysis and task selection
  • Maintenance Managers overseeing RCM reviews and maintenance strategy
  • Asset Integrity Engineers linking failure consequences to maintenance controls
  • Maintenance Planners building CMMS task plans from RCM outputs
  • Plant Engineers evaluating equipment functions and performance standards
  • Condition Monitoring Specialists interpreting inspection and predictive data
  • Rotating Equipment Engineers analysing failure modes and maintenance intervals
  • Production Supervisors balancing uptime needs with maintenance shutdown windows
  • RCM Facilitators structuring workshops and decision logic sessions
  • Operations and Maintenance Leaders reporting reliability risks to executives

Course Objectives

This course equips you to plan, execute, and measure reliability-centred maintenance initiatives that improve asset availability, control failure consequences, and strengthen maintenance governance.

  • Assess equipment criticality using the RCM seven questions and FMEA logic.
  • Apply functional failure analysis to identify dominant failure modes and consequences.
  • Design an RCM worksheet and decision logic tree for selected assets.
  • Build a maintenance task selection matrix using PM, CBM, and run-to-failure options.
  • Evaluate maintenance strategies against SAE JA1011-aligned RCM criteria and risk.
  • Navigate operations, maintenance, and engineering input for defensible task decisions.
  • Implement CMMS-ready task structures and KPI measures such as MTBF and downtime.
  • Synthesize findings into an RCM review report and implementation roadmap.

Requirements & Prerequisites

Prerequisites required: working knowledge of industrial maintenance, equipment operations, or asset management; familiarity with failure data, maintenance work orders, or maintenance planning is strongly recommended. This is an advanced course, so you should already work with plant equipment, reliability data, or maintenance strategy decisions. No coding is required. Participants should bring a laptop for spreadsheet-based exercises and be prepared to review sample CMMS extracts, failure logs, and maintenance task records.

Local Application and Business Return in Thailand

How participants can apply the training in local operating conditions, and the return their organisation can plan for.

How participants apply this

Participants in Thailand would typically apply this course by selecting a plant or fleet asset, defining its functions, and mapping the main functional failures that disrupt production. They would then build an RCM worksheet, rank failure consequences, and decide whether the right response is preventive maintenance, condition-based monitoring, redesign, or run-to-failure. In practice, this supports more disciplined maintenance planning, better shutdown scope definition, and clearer justification for spare parts and inspection intervals. For multi-site organisations, the same logic can be standardised so that different plants use the same maintenance decision rules for similar equipment.

Expected ROI

Within 6 to 12 months, the main return is usually less unplanned downtime because maintenance activities are tied to actual failure risk rather than habit. Teams also tend to reduce unnecessary PM work, which frees labour hours, spare parts, and shutdown capacity for higher-value tasks. A second benefit is better decision quality: managers can explain why a task exists, why it was removed, or why a condition-monitoring route is justified. In operations with repeated breakdowns, the course can help convert recurring firefighting into a stable task hierarchy and implementation roadmap.

Training Methodology

This is a practical, outcome-driven course designed to turn reliability-centred maintenance aspiration into measurable action and credible reporting.

Methodology includes:

  • Calculate maintenance priority using MTBF, downtime, and criticality data from sample asset registers.
  • Simulate an RCM review for a production asset under outage and budget constraints.
  • Assess equipment using the SAE JA1011 seven-question logic and a failure mode checklist.
  • Map operations, maintenance, and engineering approval points for an RCM recommendation workflow.
  • Analyse case patterns from oil and gas, power generation, manufacturing, and mining.
  • Develop an RCM worksheet and maintenance task selection matrix in workshop time.
  • Challenge current PM routines against failure evidence, CMMS history, and consequence benchmarks.

Upcoming Sessions

Next available dates worldwide

Virtual

(Zoom) Training
USD 850
29th Jun-3rd Jul 2026
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Nairobi

Kenya
USD 1,600
6th Jul-10th Jul 2026
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Kigali

Rwanda
USD 1,900
29th Jun-3rd Jul 2026
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Dubai

United Arab Emirates (UAE)
USD 4,100
29th Jun-3rd Jul 2026
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Abuja

Nigeria
USD 2,800
29th Jun-3rd Jul 2026
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Zanzibar

Tanzania
USD 2,400
13th Jul-17th Jul 2026
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Addis Ababa

Ethiopia
USD 2,400
27th Jul-31st Jul 2026
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Mombasa

Kenya
USD 1,700
20th Jul-24th Jul 2026
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Cape Town

South Africa
USD 3,900
13th Jul-17th Jul 2026
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Johannesburg

South Africa
USD 3,500
6th Jul-10th Jul 2026
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Pretoria

South Africa
USD 3,300
29th Jun-3rd Jul 2026
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Kampala

Uganda
USD 1,900
27th Jul-31st Jul 2026
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Lagos

Nigeria
USD 2,500
6th Jul-10th Jul 2026
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Certification

Recognized credentials that advance your career

Participants who complete the Reliability-Centred Maintenance Training Program earn a Trainingcred Certificate of Achievement, demonstrating professional competence and alignment with global standards in learning and development.

NITA Accredited

Accredited by the National Industrial Training Authority, ensuring programs meet nationally recognized standards of quality and relevance.

CPD Certified

Recognized by the CPD Certification Service, ensuring every program meets internationally benchmarked standards of professional excellence.

Each certification reflects practical expertise, strategic insight, and readiness to excel in today's competitive, fast-evolving workplace.

Why this course earns its place on your CV

Accredited training, practitioner trainers, and peers on the same career track — the three things real expertise is built on.

Effective Learning & Skill Development

  • Build expertise with structured, outcome-driven learning.
  • Equip individuals and teams with skills that grow with industry needs.
  • Reinforce learning through real-world scenarios, case studies and practical exercises.

Career Growth & Professional Advancement

  • Apply what you learn with a proven methodology that ensures lasting impact.
  • Develop immediately usable skills that translate directly into workplace success.
  • Gain the expertise needed for career advancement and leadership roles.

Training Optimization & Learning Excellence

  • Tailor training to industry-specific challenges and organizational goals.
  • Use data-driven insights and automation to enhance training effectiveness.
  • Evaluate progress and ensure long-term learning success.

Tools and platforms relevant to this field

Examples Thailand teams may encounter, and that may be featured in training where they support the confirmed course scope.

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These are field-relevant examples, not a promise that every tool will be covered. Exact coverage depends on the confirmed course scope, participant needs, and delivery format.

  • SAP Asset Manager SAP
    Used by maintenance teams to execute work orders, capture inspections, and keep asset history connected to enterprise maintenance processes.
  • SAP S/4HANA Asset Management SAP
    Used to manage maintenance planning, notifications, and equipment master data in organisations standardising enterprise asset management.
  • IBM Maximo Application Suite IBM
    Used for asset management, work management, and reliability-focused maintenance planning across industrial sites and fleets.
  • Fiix CMMS Fiix Software
    Used to schedule preventive work, log failures, and support maintenance standardisation where teams need simpler CMMS adoption.
  • AVEVA PI System AVEVA
    Used to collect operational data for condition monitoring and reliability analysis in process and manufacturing environments.

Real Results from Real Professionals

Thousands of professionals have transformed their careers through our training programs. Now, it's your turn.

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Local market advisory

Course relevance for Thailand

A country-specific view of market pressure, regulatory context, and practical business return behind this training.

  • Market context
  • Regulatory fit
  • Business application

Why this course matters in Thailand

A market-specific advisory on the operating pressures this course helps teams address.

Reliability-centred maintenance matters in Thailand because manufacturers, utilities, transport operators, and process plants need to reduce unplanned downtime while using maintenance budgets more selectively. The course helps teams move from reactive firefighting to evidence-based task selection, which is especially valuable where equipment availability, safety, and cost control all compete for attention. Reliability engineers, maintenance managers, planners, and asset integrity teams can use RCM to decide which failures deserve preventive action, which need condition monitoring, and which can be run to failure. For leaders, the practical decision is how to convert maintenance spend into measurable uptime, risk reduction, and better asset life-cycle performance.
Task selection is the value driver

RCM is most useful when Thai plants have mixed asset criticality: high-consequence assets justify structured task analysis, while low-consequence assets often do not need intensive preventive work. That makes the course relevant for prioritising limited maintenance resources instead of spreading them evenly across every machine.

Data quality limits maintenance optimisation

Many teams can collect work-order and breakdown data, but the practical gap is turning inconsistent CMMS records into reliable failure-mode decisions. This course gives participants a framework for cleaning up maintenance logic before they try to automate or predict failures.

Cross-functional execution is essential

RCM works best when operations, maintenance, reliability, and engineering agree on asset functions and failure consequences. In Thailand’s manufacturing and process environments, that alignment helps avoid conflicting priorities between production output, safety, and maintenance windows.

This training is timely because Thai operators face strong pressure to improve uptime, control maintenance cost, and justify reliability investments with clearer business cases. It is also relevant where plants are modernising with condition monitoring, automation, and analytics, because those tools only work well when the underlying maintenance strategy is sound.

Regulatory context in Thailand

The local regulators, laws, and frameworks shaping this discipline, with the curriculum mapped to what teams need to know.

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Regulators

  • DIW Relevant where maintenance decisions affect industrial safety, plant reliability, and compliance in factories and regulated industrial sites.
  • MOI Relevant to industrial policy, factory oversight, and manufacturing-sector operating standards that shape maintenance priorities.
  • OTP Relevant when RCM is applied to transport assets and public-transport systems where uptime and safety are critical.

Frameworks the course aligns with

  • 01 Factory Act, B.E. 2535 (1992) · 1992
  • 02 Occupational Safety, Health and Environment Act, B.E. 2554 (2011) · 2011
  • 03 Hazardous Substance Act, B.E. 2535 (1992) · 1992

Frequently Asked Questions

Got questions? We've gathered the answers to common queries to help you feel confident and informed.

No. RCM is most common in large plants, but it also works for fleets, utilities, and any operation where equipment failures have clear consequences. The method is scaled to the asset’s criticality, so lower-risk assets do not need the same depth of analysis.

No, but better data makes the analysis stronger. Many organisations begin RCM with workshop knowledge, failure history, and technician input, then improve the CMMS data set as they implement the new task plan.

Preventive maintenance is a maintenance tactic; RCM is the decision method used to choose the right tactic. RCM may recommend preventive tasks, condition monitoring, redesign, or no scheduled task at all, depending on the failure consequence.

Typical outputs include an asset criticality screen, an FMEA-style failure worksheet, a task selection matrix, and an implementation plan. These artefacts help teams move from analysis to execution.

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