Realistic Failure Rate Data – the Calibrated FMEDA™ Method
Getting Good Failure Rate Data (IEC 61511:2016)
Getting Good Failure Rate Data - Part 1: Safety Design Optimization - Failure Rate
FMEDA Results- Using the Best Possible Source of Failure Rate Data
Comparing Failure Rate Data
A Flexible Extension of the Weibull Model for Realistic Failure Rate Patterns
Failure Rate Classification-Safe or Dangerous: How to Use Fail Low and Fail High Failures
Failure Data Prediction using FMEDA for a Type A electronic device
Failure Rate Analysis - Best large capacity hard drives: Seagate, Western Digital or Toshiba?
How Safe Are You? The Importance of Functional Safety and Realistic Failure Rates
Getting Good Failure Rate Data - Part 3: Failure Rate Prediction
The exida FMEDA Process - Accurate Failure Data for the Process Industries
So What? My Failure Rates Are Low?
Comparing Mechanical Failure Rates
Mechanical Failure Rates: Explaining the Differences
Mechanical Failure Rates - Explaining the Differences
Evaluating Manufacturer’s Certificates and Failure Rates (2017)
Why do 60% of CRM projects fail?
Using Field Failure Data to Validate and Calibrate the FMEDA Process
Calibrated Component Database vs. Warranty data: What’s the difference?
