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W1858391993 abstract "Worldwide, small and medium enterprises (SMEs) have been accepted as the engine of economic growth, especially in the emerging economies, and for promoting equitable development their contribution as a component to nation's infrastructure is relatively high. Global competition forces SMEs to improve their competitiveness by enhancing their manufacturing performance. Hence, they have to pay attention to the reliability of their production processes as well as their commitment to quality management practices. In present times, because of automation and large‐scale mechanization, higher plant availability, better product quality and longer equipment life had assumed considerable significance among the SMEs. In order to meet the above challenges, adoption and practice of proactive maintenance strategies along with execution of best management practices, i.e. lean Six Sigma (LSS), has become essential for organizations to bring down maintenance and production costs. As evident from literature, both total productive maintenance (TPM) and Six Sigma are key business process strategies employed by SMEs to enhance their manufacturing performance. However, whilst there is significant research information available on implementing these systems in an independent manner, there is little information available relating to the integration of these approaches to provide a unified and highly effective implementation framework. The purpose of this paper is thus to develop an integrated model based on Six Sigma and TPM framework focusing on adding performance indicators. The goals of the study were achieved by utilizing various tools such as ‘brainstorming sessions, pareto analysis fish‐bone diagrams, histograms, FMEA, box plots, control charts and process capability plots for analysis’. While implementation of such twin framework requires greater management commitment in terms of training, resources and integration, they are also expected to provide higher levels of equipment and plant performance as evident from the results. The results show significant improvement in OEE level (Before 50, 54 and after 76, 83 for M/C –I and M/c‐II), reduction in rework (from 22% to 10%), reduction in maintenance versus operation cost (from 30% to 10%) and reduction in defect rate (from 24.82% to 5%) and average outgoing quality level (from 30% to 5%). The substantial improvement in sigma level from 2.16 and 2.64 to 4.01 and 4.12 for M/C –I and M/C‐II resulted in financial savings of approximately $2 m per annum. Copyright © 2013 John Wiley & Sons, Ltd." @default.
W1858391993 created "2016-06-24" @default.
W1858391993 creator A5047521056 @default.
W1858391993 creator A5083807291 @default.
W1858391993 date "2013-06-27" @default.
W1858391993 modified "2023-10-05" @default.
W1858391993 title "Integrating Six Sigma Culture and TPM Framework to Improve Manufacturing Performance in SMEs" @default.
W1858391993 cites W1967184264 @default.
W1858391993 cites W1975246714 @default.
W1858391993 cites W1977418947 @default.
W1858391993 cites W1982775699 @default.
W1858391993 cites W1987258636 @default.
W1858391993 cites W1995079289 @default.
W1858391993 cites W1995937353 @default.
W1858391993 cites W1996471230 @default.
W1858391993 cites W1999973809 @default.
W1858391993 cites W2009671430 @default.
W1858391993 cites W2012877752 @default.
W1858391993 cites W2015983158 @default.
W1858391993 cites W2024905512 @default.
W1858391993 cites W2040151716 @default.
W1858391993 cites W2045907860 @default.
W1858391993 cites W2055274239 @default.
W1858391993 cites W2061149070 @default.
W1858391993 cites W2064207866 @default.
W1858391993 cites W2065533299 @default.
W1858391993 cites W2066785597 @default.
W1858391993 cites W2068783278 @default.
W1858391993 cites W2071554697 @default.
W1858391993 cites W2073985694 @default.
W1858391993 cites W2075304413 @default.
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W1858391993 cites W2080659483 @default.
W1858391993 cites W2081829530 @default.
W1858391993 cites W2082334424 @default.
W1858391993 cites W2084780111 @default.
W1858391993 cites W2088969703 @default.
W1858391993 cites W2089912349 @default.
W1858391993 cites W2090988448 @default.
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W1858391993 cites W2120796331 @default.
W1858391993 cites W2132003085 @default.
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W1858391993 cites W2141592893 @default.
W1858391993 cites W2159725793 @default.
W1858391993 cites W2171119802 @default.
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W1858391993 doi "https://doi.org/10.1002/qre.1525" @default.
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