Failure mode and effects analysis

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Failure mode and effects analysis (FMEA) is a method (first developed for systems engineering) that examines potential failures in products or processes. It may be used to evaluate risk management priorities for mitigating known threat-vulnerabilities.

FMEA helps select remedial actions that reduce cumulative impacts of life-cycle consequences (risks) from a systems failure (fault).

By adapting hazard tree analysis to facilitate visual learning, this method illustrates connections between multiple contributing causes and cumulative (life-cycle) consequences.

It is used in many formal quality systems such as QS 9000 or ISO/TS 16949.

The basic process is to take a description of the parts of a system, and list the consequences if each part fails. In most formal systems, the consequences are then evaluated by three criteria and associated risk indices:

• severity (S),
• likelihood of occurrence (O), and (Note: This is also often known as probability (P))
• inability of controls to detect it (D)

Each index ranges from 1 (lowest risk) to 10 (highest risk). The overall risk of each failure is called Risk Priority Number (RPN) and the product of Severity (S), Occurrence (O), and Detection (D) rankings: RPN = S × O × D. The RPN (ranging from 1 to 1000) is used to prioritize all potential failures to decide upon actions leading to reduce the risk, usually by reducing likelihood of occurrence and improving controls for detecting the failure.

Contents 1 Applications 2 Disadvantages 3 History 4 See also 5 External links

[edit] Applications

FMEA is most commonly applied but not limited to design (Design FMEA) and manufacturing processes (Process FMEA).

Design failure modes effects analysis (DFMEA) identifies potential failures of a design before they occur. DFMEA then goes on to establish the potential effects of the failures, their cause, how often and when they might occur and their potential seriousness.

Process failure modes effects analysis (PFMEA) is a systemized group of activities intended to:

1. Recognize and evaluate the potential failure of a product/process and its effect,
2. Identify actions which could eliminate or reduce the occurrence, or improve detectability,
3. Document the process, and
4. Track changes to process-incorporated to avoid potential failures.

FMEA Analysis is very important for dynamic positioning systems.

[edit] Disadvantages

FMEA is useful mostly as a survey method to identify major failure modes in a system. It is not able to discover complex failure modes involving multiple failures or subsystems, or to discover expected failure intervals of particular failure modes. For these, a different method called fault tree analysis is used.

[edit] History

The FMEA process was originall

[edit] See also

• Causal layered analysis
• Reliability engineering
• Safety engineering
• Futures techniques
• Failure mode
• Failure rate
• Six sigma
• DRBFM
• PFMEA

[edit] External links

• Six Sigma First - Article on FMEA
• International Automotive Task Force - IATF publications, including the FMEA reference manual
• FMEA Info Centre
• PlanTech Incorporated
• HarpcoSystems
• FMEA and FMECA Information
• iSixSigma FMEA page
• FMEA/FMECA Reliability forum and FAQ