A modified FMEA approach to enhance reliability of lean systems

A modified FMEA approach to enhance reliability of lean systems

Purpose - The purpose of this paper is to encourage the integration of Lean principles with reliability models to sustain Lean efforts on a long-term basis. It seeks to present a modified FMEA that will allow Lean practitioners to understand and improve the reliability of Lean systems. The modified...

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Bibliographic Details
Published in:The International journal of quality & reliability management Vol. 27; no. 7; pp. 832 - 855
Main Authors: Sawhney, Rapinder, Subburaman, Karthik, Sonntag, Christian, Rao Venkateswara Rao, Prasanna, Capizzi, Clayton
Format: Journal Article
Language:English
Published: Bradford Emerald Group Publishing Limited 03-08-2010
Subjects:
Business
Design
Deviation
Employee involvement
Employees
Failure analysis
Failure mechanical
Knowledge bases (artificial intelligence)
Lean manufacturing
Literature reviews
Literature searches
Manufacturing cells
Materials management
Methodology
Production capacity
Roots
Schedules
Studies
Success
System reliability
Work stations
Workforce
Failure (mechanical)
Employees
Materials management
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Summary:Purpose - The purpose of this paper is to encourage the integration of Lean principles with reliability models to sustain Lean efforts on a long-term basis. It seeks to present a modified FMEA that will allow Lean practitioners to understand and improve the reliability of Lean systems. The modified FMEA approach is developed based on the four critical resources required to sustain Lean systems: personnel, equipment, materials, and schedules.Design methodology approach - A three-phased methodology approach is presented to enhance the reliability of Lean systems. The first phase compares actual business and operational conditions with conditions assumed in Lean implementation. The second phase maps potential deviations of business and operational conditions to their root cause. The third phase utilizes a modified Failure Mode and Effects Analysis (FMEA) to prioritize issues that the organization must address.Findings - A literature search shows that practical methodologies to improve the reliability of Lean systems are non-existent.Research limitations implications - The knowledge database involves many tedious calculations and hence needs to be automated.Originality value - The paper has defined Lean system reliability, developed a conceptual model to enhance the Lean system reliability, developed a knowledge base in the form of detailed hierarchical root trees for the four critical resources that support our Lean system reliability, developed a Risk Assessment Value (RAV) based on the concept of effectiveness of detection using Lean controls when Lean designer implements Lean change, developed modified FMEA for the four critical resources.
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ISSN:0265-671X
1758-6682
DOI:10.1108/02656711011062417