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Reliability Engineering 101

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Reliability Engineering 101 Training

Reliability Engineering 101 training (for complete Reliability Engineering 101 Training course outline and description CLICK HERE)

Reliability Engineering 101 Training provides a general introduction to key  reliability engineering , methodologies, procedures and techniques. Reliability Engineering 101 training is designed for anyone interested in reliability engineering or safety analysis and applications of  them to systems engineering to build reliable, high quality and safe products and systems.

Design engineering and operations personnel, Maintenance engineering and product and project managers who are involved in improving reliability, availability, condition monitoring, and maintainability of equipment, systems or processes will benefit from this course. A basic foundation in statistical analysis and reliability techniques is provided for all the attendees.

Reliability Engineering 101 Training covers basics and fundamentals of reliability engineering including key reliability concepts and definitions along with other reliability characteristics and measurements.

Key Topics:

  • Effectively apply reliability engineering techniques to achieve improvements
  • Techniques to improve your product and system design and process performance and reduce costs
  • Details of reliability and availability of processes
  • Techniques to improve process quality and design accuracy of your products
  • Basic key concepts such as failure, failure rate, MTBF, MTTR, MTTF and Availability
  • Failure Modes and Effects Analysis (FMEA)
  • Design FMEA
  • Software FMEA
  • Functional FMEA
  • Hardware FMEA
  • Process FMEA
  • Reporting and documentation
  • Hazard and Operability (HAZOP)
  • Reliability and Safety Assessment
  • Fault Tree Analysis (FTA)
  • Fault Tree symbols and methodology
  • Fault Tree construction and reduction
  • Minimal Cut Sets
  • Fault Tree quantification
  • Human Factors
  • Event Tree Analysis (ETA)
  • Failure Modes, Effects and Criticality Analysis (FMECA)
  • Analyzing hazard frequency and impact of their occurrence
  • Improve performance and safety integrity
  • Markov Analysis
  • Monte Carlo Simulation
  • Component Failure and Repair Distributions
  • Maintenance and Maintainability Analysis
  • Reliability Centered Maintenance (RCA)
  • Root Cause Analysis (RCA)
  • Reliability Data and Analysis

 

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