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Criteria for a Successful FMEA

Criteria for a Successful FMEA. Design & Process. Design FMEA Format. Item. Action Results. Action Results. C. C. O. O. D. D. Current. Current. Potential. Potential. Response &. Response &. Potential. Potential. Potential. Potential. S. S. l. l. c. c. e. e. R. R.

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Criteria for a Successful FMEA

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  1. Criteria for a Successful FMEA Design & Process

  2. Design FMEA Format Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Traget Target S S O O D D R R Failure Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  3. General Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Every FMEA should have an assumptions document attached (electronically if possible) or the first line of the FMEA should detail the assumptions and ratings used for the FMEA. • Product/part names and numbers must be detailed in the FMEA header • All team members must be listed in the FMEA header • Revision date, as appropriate, must be documented in the FMEA header Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  4. Function Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Function should be written in verb-noun context • Each function must have an associated measurable • EXAMPLE: • HVAC system must defog windows and heat or cool cabin to 70 degrees in all operating conditions (-40 degrees to 100 degrees) • - within 3 to 5 minutes • or • - As specified in functional spec #_______; rev. date_________ Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  5. Failure Mode Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Failure modes should be written in verb-noun context • Failure modes should be written as “anit-functions” • There are 5 types of failure modes: complete failure, partial failure, intermittent failure, over-function, and unintended function • EXAMPLES: • HVAC system does not heat vehicle or defog windows • HVAC system takes more than 5 minutes to heat vehicle • HVAC system does heat cabin to 70 degrees in below zero temperatures • HVAC system cools cabin to 50 degrees • HVAC system activates rear window defogger Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  6. Effect(s) of Failure Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Effects must be listed in a manner customer would describe them • Effects must include (as appropriate) safety / regulatory body, end user, internal customers – manufacturing, assembly, service • EXAMPLE: • Cannot see out of front window • Air conditioner makes cab too cold • Does not get warm enough • Takes too long to heat up Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  7. Severity Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Severity values should correspond with AIAG, SAE • If severity is based upon internally defined criteria or is based upon standard with specification modifications, a reference to rating tables with explanation for use must be included in FMEA • EXAMPLE: • Cannot see out of front window – severity 9 • Air conditioner makes cab too cold – severity 5 • Does not get warm enough – severity 5 • Takes too long to heat up – severity 4 Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  8. Cause(s) of Failure Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e a a c c t t P P Controls Controls • Causes should be limited to design concerns • Analysis must stay within the defined scope (applicable system and interfaces to adjacent systems) • Causes at component level analysis should be identified as part or system characteristic (a feature that can be controlled at process) • There is usually more than one cause of failure for each failure mode • Causes must be identified for a failure mode, not an individual effect • EXAMPLE: • Incorrect location of vents • Incorrect routing of vent hoses (too close to heat source) • Inadequate coolant capacity for application Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  9. Occurrence Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls • Occurrence values should correspond with AIAG, SAE • If occurrence values are based upon internally defined criteria, a reference must be included in FMEA to rating table with explanation for use • Occurrence ratings for design FMEA are based upon the likelihood that a cause may occur, based upon past failures, performance of similar systems in similar applications, or percent new content • Occurrence values of 1 must have objective data to provide justification, data or source of data must be identified in Recommended Actions column • EXAMPLE: • Incorrect location of vents – occurrence 3 • Incorrect routing of vent hoses (too close to heat source) – occurrence 6 • Inadequate coolant capacity for application – occurrence 2 Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  10. Classification Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect • Classification should be used to define potential critical and significant characteristics • Critical characteristics (9 or 10 in severity with 2 or more in occurrence- suggested) must have associated recommended actions • Significant characteristics (4 thru 8 in severity with 4 or more in occurrence -suggested) should have associated recommended actions • Classification should have defined criteria for application • EXAMPLE: • Cannot see out of front window – severity 9 – incorrect vent location – occurrence 2 • Air conditioner makes cab too cold – severity 5 - Incorrect routing of vent hoses (too close to heat source) – occurrence 6

  11. Current Design Controls Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Preventive controls are those that help reduce the likelihood that a failure mode or cause will occur – affects occurrence value • Detective controls are those that find problems that have been designed into the product – assigned detection value • If detective and preventive controls are not listed in separate columns, they must include an indication of the type of control • EXAMPLE: • Engineering specifications (P) – preventive control • Historical data (P) – preventive control • Functional testing (D) – detective control • General vehicle durability (D) – detective control Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  12. Detection Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c • Detection values should correspond with AIAG, SAE • If detection values are based upon internally defined criteria, a reference must be included in FMEA to rating table with explanation for use • Detection is the value assigned to each of the detective controls • Detection values of 1 must eliminate the potential for failures due to design deficiency • EXAMPLE: • Engineering specifications – no detection value • Historical data – no detection value • Functional testing – detection 3 • General vehicle durability – detection 5 Function Prevent Prevent Detect Detect

  13. RPN (Risk Priority Number) Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Risk Priority Number is a multiplication of the severity, occurrence and detection ratings • Lowest detection rating is used to determine RPN • RPN threshold should not be used as the primary trigger for definition of recommended actions • EXAMPLE: • Cannot see out of front window – severity 9, – incorrect vent location – 2, Functional testing – detection 3, RPN - 54 Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  14. Recommended Actions Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • All critical or significant characteristics must have recommended actions associated with them • Recommended actions should be focused on design, and directed toward mitigating the cause of failure, or eliminating the failure mode • If recommended actions cannot mitigate or eliminate the potential for failure, recommended actions must force characteristics to be forwarded to process FMEA for process mitigation Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  15. Responsibility & Target Completion Date Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • All recommended actions must have a person assigned responsibility for completion of the action • Responsibility should be a name, not a title • Person listed as responsible for an action must also be listed as a team member • There must be a completion date accompanying each recommended action Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

  16. Action Results Item Action Results Action Results C C O O D D Current Current Potential Potential Response & Response & Potential Potential Potential S S l l c c e e R R Design Cause(s)/ Cause(s)/ Recommended Recommended Target S S O O D D R R Failure Effect(s) of Effect(s) of e e a a c c t t P P Controls Controls • Action taken must detail what actions occurred, and the results of those actions • Actions must be completed by the target completion date • Unless the failure mode has been eliminated, severity should not change • Occurrence may or may not be lowered based upon the results of actions • Detection may or may not be lowered based upon the results of actions • If severity, occurrence or detection ratings are not improved, additional recommended actions must to be defined Action Action Mechanism(s) Mechanism(s) Actions Actions Complete Complete E E C C E E P P Mode Failure Failure v v s s u u e e N N Taken Taken Of Failure Of Failure Date Date V V C C T T N N s s r r c c Function Prevent Prevent Detect Detect

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