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Certified Reliability Engineer (CRE)

Certified Reliability Engineer (CRE)
Summary

The Certified Reliability Engineer is a professional who understands the principles of performance evaluation and prediction to improve product/systems safety, reliability, and maintainability. This Body of Knowledge (BOK) and applied technologies include, but are not limited to, design review and control; prediction, estimation, and apportionment methodology; failure mode and effects analysis; the planning, operation, and analysis of reliability testing and field failures, including mathematical modeling; understanding human factors in reliability; and the ability to develop and administer reliability information systems for failure analysis, design, and performance improvement and reliability program management over the entire product lifecycle.



This 5-day B.K's Certified Reliability Engineer course delivers tools that will help you manage, design, analyse, test, manufacture and support consistently reliable products and systems that are geared to delivering customer satisfaction and business opportunity. You will recognize and use probability distributions and analysis techniques, and be able to make better decisions during the complete product life cycle. You will be able to integrate world-best reliability engineering and management practices into your company.

Reference
Certified Reliability Engineer BoK
Objective

By the end of the course participant will be able to:


  • Demonstrate an understanding of the concepts of reliability engineering
  • Measure model times to failure using the appropriate probability distribution
  • Demonstrate an understanding of the relationship between the time to failure distribution, the reliability function, and the hazard rate.
  • Determine a life test, estimate reliability values from the test data, and set confidence limits on the results
  • Use the design tools necessary to ensure a reliable product including prediction, allocation and FMEA.
  • Understand the differences in analyzing the reliability of a repairable and a non-repairable system.
Who should attend

Quality or reliability managers/engineers, production/ design engineers, and warranty analysts with engineering functions should attend this training. This course is designed for practicing engineers.

Additional Information
N/A
Certified Reliability Engineer (CRE)
  • Benefits of reliability engineering
  • Interrelationship of safety, quality, and reliability
  • Role of the reliability function in the organization
  • Reliability in product and process development
  • Failure consequence and liability management
  • Warranty management
  • Customer needs assessment
  • Supplier reliability
  • Terminology
  • Elements of a reliability program
  • Types of risk
  • Product lifecycle engineering
  • Design evaluation
  • Systems engineering and integration
  • Ethical issues
  • Roles and responsibilities
  • System safety
  • Statistical terms
  • Basic statistical concepts
  • Discrete and continuous probability distributions
  • Poisson process models
  • Statistical process control (SPC) and process capability
  • Point and interval estimates
  • Hypothesis testing
  • Sample size determination
  • Non-parametric methods
  • Design of experiments
  • Analysis of variance (ANOVA)
  • Regression analysis
  • Environmental and use factors
  • Stress-strength analysis
  • FMEA and FMECA
  • Common mode failure analysis
  • Fault tree analysis (FTA) and success tree analysis (STA)
  • Tolerance and worst-case analyses
  • Design of experiments
  • Fault tolerance
  • Reliability optimization
  • Human factors
  • Design for X (DFX)
  • Reliability apportionment (allocation) techniques
  • Selection, standardization, and reuse
  • Derating methods and principles
  • Parts obsolescence management
  • Establishing specifications
  • Sources and uses of reliability data
  • Reliability block diagrams and models
  • Physics of failure models
  • Simulation techniques
  • Dynamic reliability
  • Part count predictions and part stress analysis
  • Reliability prediction methods
  • Reliability Test Strategies
  • Test Environment
  • Accelerated life tests
  • Discovery testing
  • Reliability growth testing
  • Software testing
  • Qualification / demonstration testing
  • Product reliability acceptance testing (PRAT)
  • Stress screening
  • Attribute testing
  • Degradation testing
  • Planning
  • Maintenance strategies
  • Availability tradeoffs
  • Preventive maintenance (PM) analysis
  • Corrective maintenance analysis
  • Non-destructive evaluation
  • Testability
  • Spare parts analysis
  • Types of data
  • Collection methods
  • Data management
  • Failure analysis methods
  • Failure reporting, analysis, and corrective action system (FRACAS)
BK Instructor
BK Instructor
 Instructor
  • BK Management Team believe that learning is not only about acquiring technical skills, it is also about learning behaviors & Competencies that are desirable for work in plant operation & maintenance critical dimensions. Our holistic teaching develops our delegates' personal effectiveness to function both as an individual and as a team player. The course delivery & modes of instruction will incorporate theory , practical skills and Q&A sessions. 
  • To enhance learning outcomes, theory sessions will comprise classroom based lecture that will intersperse with interactive discussions, scenario-based, case-study, group exercises, video clips, power point slides, learners' Guide and the application of various tools which will be provided to help in the delegates and participants of the learning’s objectives. With successful implementation of the learnt skills they are bound to enhance Individual & Organizational growth.
  • For online / Interactive Virtual sessions, Delegate should have a stable & good Internet connection on his Laptop.

On successful completion of this training course, BK’s Certificate with eligible Continuing Professional Education credits (CPE), will be awarded to the delegates , one CPE credit is granted per 50 minutes of attendance.

Course Features

  • Core : Training
  • Category : Maintenance & Reliability Engineering
  • Days : 5
  • Duaration : 40 Hours

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