In this on-line reference, most of the examples and derivations assume that each block represents a component/subassembly in a larger system. The same methodology and principles can also be used for other applications. For example, all derivations assume that the "event" under consideration is the event of failure of a component. One can easily take this principle and apply it to failure modes for a component/subsystem or system. To illustrate this, consider the following example.
Assume that a system has five failure modes: A, B, C, D and F. Furthermore, assume that failure of the entire system will occur if mode A occurs, modes B and C occur simultaneously or if either modes C and D, C and F or D and F occur simultaneously. Given the probability of occurrence of each mode, what is the probability of failure of the system?
Figure 4.27 shows the diagram for this configuration.
Figure 4.27: Reliability block diagram for Example 17.
Analysis of this diagram follows the same principles as the ones presented in this chapter and can be performed in BlockSim, if desired.
Assume that a system has six failure modes: A, B, C, D, E and F. Furthermore, assume that failure of the entire system will occur if:
Mode B, C or F occurs.
Modes A and E, A and D or E and D occur.
Draw the block diagram and obtain the reliability equation.
The diagram is shown in Figure 4.28.
Figure 4.28: Reliability block diagram for Example 18.
The reliability equation, as obtained from BlockSim is:
The BlockSim equation includes the node reliability term R2/3, which cannot fail, or R2/3 = 1. This can be removed, yielding:
See Also:
RBDs and Analytical System Reliability
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