Course

Certified Professional in Lean Six Sigma Improvement Tool – Failure Mode Effect Analysis (FMEA)

The Certified Professional in Lean Six Sigma Improvement Tool – Failure Mode Effect Analysis (FMEA) program equips participants with the knowledge and skills to effectively apply FMEA techniques in Lean Six Sigma projects. Participants learn how to identify potential failure modes in processes, assess their impact, prioritize risks, and implement preventive measures to enhance process reliability and quality.

  • Understand the principles and concepts of Failure Mode Effect Analysis (FMEA) in the context of Lean Six Sigma.
  • Learn how to conduct FMEA studies to identify potential failure modes, their causes, and associated effects on process performance.
  • Develop proficiency in assessing the severity, occurrence, and detectability of failure modes using risk priority numbers (RPNs).
  • Gain insights into prioritizing risks and selecting appropriate preventive and corrective actions based on FMEA findings.
  • Acquire skills to effectively communicate FMEA results and recommendations to stakeholders in Lean Six Sigma projects.
  • Proficiency in applying Failure Mode Effect Analysis (FMEA) techniques in Lean Six Sigma projects.
  • Enhanced ability to identify potential failure modes, assess risks, and prioritize improvement opportunities.
  • Skills to develop preventive and corrective action plans based on FMEA findings to mitigate process risks.
  • Certification as a Certified Professional in Lean Six Sigma Improvement Tool – Failure Mode Effect Analysis (FMEA).

Lean Six Sigma practitioners, quality engineers, process improvement specialists, and individuals involved in continuous improvement initiatives.

Applicable to organizations across various industries, including manufacturing, healthcare, aerospace, and automotive, seeking to enhance their process reliability and quality through Lean Six Sigma methodologies.

  • Introduction to Failure Mode Effect Analysis (FMEA) and its role in Lean Six Sigma.
  • FMEA methodology and process overview.
  • Identification of failure modes, causes, and effects.
  • Risk assessment and calculation of risk priority numbers (RPNs)
  • Prioritization of risks and selection of preventive actions.
  • Implementation of corrective actions and continuous improvement.
  • Communication of FMEA results and recommendations.
  • Case studies and practical applications of FMEA in Lean Six Sigma projects.
  • Integration of FMEA with other Lean Six Sigma tools and methodologies.
  • Integration of FMEA with other Lean Six Sigma tools and methodologies.