About this course

This course will clarify their roles, explain reliability engineering in practical terms and give them the skills to calculate asset reliability and compile a Reliability Roadmap for the organisation.

With the pressure on asset managers and engineering managers to ensure that their ageing assets deliver better performance at a lower cost and risk, the need for competent reliability engineers has escalated.

Many large organisations are in the process of recruiting REs, resulting in a strong demand for practical training to effectively equip REs with the required competencies.

Unfortunately, many of the available courses are highly academic and theoretical, aggravated by the confusion about exactly what an RE should be doing.

Pragma has combined its 30 years of asset management experience with the expertise of some of our blue-chip clients to clarify the role of an RE and develop a unique training programme that would give them the technical, analytical and financial skills to fulfil these roles effectively.

Outcomes

At the end of this course learners will be able to:

Explain the role of the RE to achieve the organisation’s asset management objectives

Explain, calculate and interpret the different reliability functions for a simple asset

Interpret the failure profiles of components and relate them to the appropriate maintenance tactics

Identify the bottleneck asset in a process as the focus area for reliability improvement efforts Calculate the mean time between failure for an item

Compile a reliability block diagram for an asset system in order to calculate its reliability

Achieve quick reliability improvements by applying precision maintenance

Compile a reliability improvement strategy for an organisation

Reliability Engineering in Practice - Content
 

Who should attend?

  • Reliability engineers
  • Young engineers who are planning a career in reliability engineering
  • Engineering/Asset managers who need to lead and guide reliability engineers
  • Continuous improvement engineer

Format and duration

  • 3-day classroom training
  • 24 notional hours: blended learning comprising 6 x 4 hour virtual classroom sessions and online learning

Take-home tools

  • A role description for a reliability engineer
  • Excel templates to calculate different reliability functions
  • Reliability Engineering self-assessment
  • Template for a RE Road Map

    Register

    Complete this form to sign up for the course.

    Please provide a purchase order number for invoicing purposes:

    Terms and conditions of registration and use
    All registrations received are regarded as confirmed and subject to the following:

    • Payment must be made before the course start date or within 30 days of invoice date, whichever occurs first. Once payment has been made, please send proof thereof via email to: pragma.academy@pragmaworld.net.
    • Refunds and/or substitutions are not applicable if a learner has: enrolled for a course and accessed it via the Pragma Academy Learning Management System; or attended a classroom session; or has enrolled, but failed to attend without notifying the Pragma Academy at least seven (7) working days prior to course start date.
    • Refunds and/or substitutions are applicable: if cancellation is received in writing at least fifteen (15) working days before the scheduled start date of the course, a full refund is applicable; if cancellation is received in writing at least seven (7) working days before the scheduled start date of the course, a 50% refund is applicable; if a learner who enrolled in a course due to take place in less than fifteen (15) working days, sends a substitution learner subject to the substitution learner meeting the minimum prerequisite qualification requirements.
    • It is the learner's responsibility to ensure that they meet the prerequisite requirements for a course they are enrolling in. Proof of suitable prerequisite qualifications will be required.
    • Pragma reserves the right to cancel any advertised course due to insufficient enrolments or conditions beyond our control.