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Failure Mode & Effect Analysis Tom Hannan & Kevin Kowalis Eastern Illinois University School of Technology Total Quality Systems INT 5133 (FMEA)
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What is FMEA? “Is an analytical technique that combines the technology and experience of people in identifying foreseeable failure modes of a product or process and planning for its elimination.” () Before-The-Event action that makes it easier to find flaws in the system OR
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Reliability Is the probability of the product to perform as expected for a certain period of time, under the given operating conditions, and at a given set of product performance characteristics.
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Reliability Requirements Based on the definition of the part, assembly, or process under consideration, the reliability of each sub-system and the factors involved in the reliability must be found, and the appropriate relationships for each part, class, or module of the product must be computed.
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Failure Rate Periods of failure can conveniently be modeled by an exponential distribution, and the probability of survival of the product or process may be viewed as: Rt = e ^(-T *F) = e ^ -(T/o) Rt = the period of operation without failure T = time specified for operation w/o failure F = Failure rate O = the mean time to failure
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Intent of FMEA An Essential Part of Total Quality Management is FMEA! Provides Training Tracks the progress of a project Helps communicating similar problems Uncovers oversights, misjudgments, and errors Calculate the probabilities of failures Determine if product or process failure effects on other aspects.
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FMEA Team FMEA methodology is a team effort where the responsible engineer involves who? Assembly Manufacturing Materials Quality Service Supplier Customer
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FMEA Documentation Block Diagram Design or Process Intent The Customer Needs and Wants The FMEA Form
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Class Assignment !!!!!! Divide up into four groups (N,S,E and W) Change Tire Flashlight Unicycle Bicycle Make A Simple Block Diagram
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Stages of FMEA Quantifying Risk Correcting High Risk Causes Specifying Possibilities Re-evaluation of Risk
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Specifying Possibilities n Functions n Possible Failure Modes n Root Causes n Effects n Detection/Prevention
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Quantifying Risk n Probability of Cause n Severity of Effect n Effectiveness of Control to Prevent Cause n Risk Priority Number
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Correcting High Risk Causes n Prioritizing Work n Detailing Action n Assigning Action Responsibility n Check Points on Completion
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Re-evaluation of Risk Recalculation of Risk Priority Number RPN = (S) * (O) * (D) S = SEVERITY O = OCCURRENCE D = DETECTION RAKING 19
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The Design FMEA Document Item Design Responsibility Prepared By Model Number/Year Key Date FMEA Date Core Team FMEA Number
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The Design FMEA Document Item/Function Potential Failure Mode Potential Effect(s) of Failure Severity (S) Classification (CLASS) Potential Cause(s)/Mechanism(s) of Failure Occurrence (O)
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The Design FMEA Document (Con. 1) n Current Design Controls n Detection (D) n Risk Priority Number (RPN) n Recommended Actions n Responsibility and Target Completion Dates n Actions Taken
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The Process FMEA Document (Con. 2) n Process Function/Requirements n Potential Failure Mode n Potential Effect(s) of Failure n Severity (S) n Classification (CLASS) n Potential Cause(s)/Mechanism(s) of Failure n Occurrence (O) n Current Process Controls
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Limitations: n FMEA document’s do not fix the identified problem n Def. of the action to fix the problem n Will not replace the basic problem- solving process.
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?Questions?
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