Understanding PFMEAs and Control Plans
Product/Process Failure Mode and Effect Analysis (PFMEA) is a quality engineering tool used to quantify and evaluate the following analysis tasks:
PFMEA is a structured approach to identifying, estimating, evaluating, and prioritizing risk.
A control plan is used to manage the process variables involved to reduce the risk of product defects in the molding process. For example, pressure and temperature are key variables that must be controlled throughout the molding process. Using PFMEA, pressure and temperature would be identified as critical process variables, their relationship to each other and their impact on the resulting product quality would be analyzed, and a control plan would be implemented to reduce the potential risk of product defects.
The goal of using these quality engineering tools is to improve product quality. However, it is important to first prioritize any quality control effort based on the relative risk involved.
Determining a Risk Priority Number (RPN)
The RPN is used to calculate the relative risk associated with defects. The formula for calculating the RPN is:
RPN = S (Severity) x O (Occurrence) x D (Detectability)
The RPN must be calculated for the entire process or design. After the RPN is calculated, the failure modes with the highest RPN are assigned the highest priority when corrective action is considered. It is important to note that the failure modes with the highest severity would not necessarily be addressed first. It is possible that less severe failures might occur more often and be less detectable, and therefore have higher RPN ranking than more severe failures.
Applying Quality Control Engineering to Plastic Injection Molding
PFMEAs, Control Plans, and RPNs are used in injection molding to analyze the risk of failure for a design, implement a plan to control process variables and prioritize corrective action based on the relative risk of defects occurring within the process. Using this discipline has the potential benefit of reducing overall failure rates while requiring only targeted and specific corrective actions.
Today’s plastic injection molding projects can improve their overall quality and reduce failure rates through the consistent use of these quality control analysis tools.
Crescent Industries Inc. puts these practices to work to achieve optimal quality from design through final production for our customer's injection molded components.