Xfmea DFR: Difference between revisions
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Design for Reliability (DFR) is a process in which a series of reliability engineering practices are utilized early in a product's design and integrated into the entire product development cycle. It is widely understood that the cost of addressing reliability issues increases significantly as a product progresses through the development cycle (e.g., it is much more expensive to provide support for an unreliable product than it is to improve a product's design). Thus, the effective use of DFR can minimize the costs and maximize the benefits of producing a reliable product.[1] | Design for Reliability (DFR) is a process in which a series of reliability engineering practices are utilized early in a product's design and integrated into the entire product development cycle. It is widely understood that the cost of addressing reliability issues increases significantly as a product progresses through the development cycle (e.g., it is much more expensive to provide support for an unreliable product than it is to improve a product's design). Thus, the effective use of DFR can minimize the costs and maximize the benefits of producing a reliable product.[1] | ||
Revision as of 13:46, 19 February 2012
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Design for Reliability (DFR) is a process in which a series of reliability engineering practices are utilized early in a product's design and integrated into the entire product development cycle. It is widely understood that the cost of addressing reliability issues increases significantly as a product progresses through the development cycle (e.g., it is much more expensive to provide support for an unreliable product than it is to improve a product's design). Thus, the effective use of DFR can minimize the costs and maximize the benefits of producing a reliable product.[1]