July 3, 2012, DSO National Laboratories, Singapore, Design for Reliability and Maintenance Seminar
DSO National Laboratories. Singapore – 3th July 2012
Location: DSO National Laboratories, 20 Science Park Drive Singapore Science Park 1, Singapore 118230
- How to achieve High Reliability and reduce Maintenance costs
- Design for Reliability (DfR) & Design for Maintenance (DfM)
- Life Cycle Cost (LCC) analysis and optimization vs. availability
This seminar will present new methods in Reliability and Maintenance engineering. It will be based on a case study, following a sample product throughout the product life-cycle. The seminar will present the theoretical description for each method and a practical view using dedicated software to automate the process.
Participants will gain an understanding of key reliability and maintenance fundamentals, principles, theories and advanced best practices for new design. The seminar combines all aspects to provide a new approach for designing a robust product, and maintaining it at minimal cost.
Industries:
DEFENSE – TELECOMS – EMBEDDED SYSTEMS – RAIL – AIRLINES – OIL & GAS
CHEMICAL & CONTINUOUS PROCESS – CONSUMER ELECTRONICS
PRM Symposium Schedule:
Morning Session
9:00-10:30
RAMS & ILS Overview, Terms & Analysis Methods
10:30–10:45
Break
10:45–12:30
MTBF Predictions, Electronic & Mechanical design, methods, comparison and applications
12:30–13:30
Lunch
Afternoon Session
13:30-15:15
Design for Reliability. An innovative approach for reliability analysis, methods, considerations and applications
15:15-15:30
Break
15:30-17:15
Design for Maintenance. Maximum Availability @ Minimum Cost and Maintenance Optimization
Content:
1. R&M Program Plan: The Management View 2. R&M Requirements, Qualitative and Quantitative 3. Analysis Methods, Applicable per Industry 4. Concept Modeling (Feasibility, Requirements, Allocation, Availability) 5. Reliability, MTBF, MTBCF, Service Life, Availability Parameters 6. Various MTBF Prediction Models 7. Virtual PCB & Assembly Prototyping 8. Schematic Design Analysis 9. Electrical Stress Simulation 10. Electrical Stress Derating 11. Thermal Analysis 12. Operational MTBF & Service Life Prediction 13. Redundant Systems Reliability Modeling 14. Technology Risk Assessment and Failure Mechanisms 15. Software Reliability |
16. Built-In Testing 17. Failure Mode Effects (& Criticality) Analysis (FMEA/ FMECA) 18. Safety and Risk Assessment; Requirements For Different Industries 19. Mean Time To Repair 20. Life Cycle Cost Analysis (LCC) 21. Level Of Repair Analysis (LORA) 22. Sparing to Availability 23. Sparing to Confidence 24. Reliability Centered Maintenance (RCM) 25. MSG-3, Maintenance Steering Group 26. Risk Based Inspections (RBI) 27. Corrective/Preventive/Predictive Maintenance Models 28. Logistic Concept and Maintenance Sites Locations and Structure 29. Field Data Collection and Analysis |
Targeting both professionals new to the field of reliability engineering and experienced participants, this seminar covers the principals of optimizing reliability and maintenance programs by applying key methods from concept to deployment. Participants will learn to build an effective reliability and maintenance plan within the organization and identify key parameters required for robust product design.
