Hi gents,
When a part is subjected to more than a single failure mode, each one described by a Weibull distribution, how do you determine the combined failure frequency? I get it easily by using Monte-Carlo simulation but it becomes rather different when it comes to analytics. I have made a few attempts following different reasoning but haven´t succeeded so far – results just don´t match! For instance:
Failure mode A: beta = 2.5; eta = 3,300 hours
Failure mode B: beta = 3.2; eta = 3,750 hours
MC simulation yields 0.00041 failures/hour.
Any help will be much appreciated. Thanks.
When a part is subjected to more than a single failure mode, each one described by a Weibull distribution, how do you determine the combined failure frequency? I get it easily by using Monte-Carlo simulation but it becomes rather different when it comes to analytics. I have made a few attempts following different reasoning but haven´t succeeded so far – results just don´t match! For instance:
Failure mode A: beta = 2.5; eta = 3,300 hours
Failure mode B: beta = 3.2; eta = 3,750 hours
MC simulation yields 0.00041 failures/hour.
Any help will be much appreciated. Thanks.