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Reduction in Repair rate of Welding Processes by Determination & Controlling of Critical KPIVs

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Reduction in Repair rate of Welding Processes by Determination & Controlling of Critical KPIVs

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dc.contributor.author Yousaf, Faheem es_ES
dc.contributor.author Butt, Dr. Shahid Ikramullah es_ES
dc.date.accessioned 2014-01-23T08:20:47Z
dc.date.available 2014-01-23T08:20:47Z
dc.date.issued 2014-01-13
dc.identifier.issn 2340-5317
dc.identifier.uri http://hdl.handle.net/10251/35022
dc.description.abstract [EN] Six Sigma is being Implemented all over the World as a successful Quality Improvement Methodology. Many Companies are now days are using Six Sigma as an Approach towards zero defects. This article provides a practical case study regarding the implementation of Six Sigma Project in a Welding Facility and discusses the Statistical Analysis performed for bringing the welding processes in the desired sigma Limits. DMAIC was chosen as potential Six Sigma methodology with the help of findings of this Methodology, Six Sigma Team First Identified the critical Factors affecting the Process Yield and then certain Improvement Measures were taken to improve the Capability of Individual welding Processes and also of Overall Welding Facility. Cost of Quality was also measured to Validate the Improvement results achieved after Conducting the Six Sigma Project. es_ES
dc.language Inglés es_ES
dc.publisher Editorial Universitat Politècnica de València
dc.relation.ispartof International Journal of Production Management and Engineering
dc.rights Reconocimiento - No comercial (by-nc) es_ES
dc.subject Statistical Process Control (SQC) es_ES
dc.subject Process Capability Indices es_ES
dc.subject Six Sigma es_ES
dc.subject Variable control chart es_ES
dc.subject Pareto charts es_ES
dc.subject Standard deviation es_ES
dc.subject Critical to Quality (CTQ) es_ES
dc.subject Analysis of Variance (ANOVA) es_ES
dc.subject DMAIC es_ES
dc.subject Total quality Management es_ES
dc.title Reduction in Repair rate of Welding Processes by Determination & Controlling of Critical KPIVs es_ES
dc.type Artículo es_ES
dc.date.updated 2014-01-23T08:14:18Z
dc.identifier.doi 10.4995/ijpme.2014.1609
dc.rights.accessRights Abierto es_ES
dc.description.bibliographicCitation Yousaf, F.; Butt, DSI. (2014). Reduction in Repair rate of Welding Processes by Determination & Controlling of Critical KPIVs. International Journal of Production Management and Engineering. 2(1):23-36. https://doi.org/10.4995/ijpme.2014.1609 es_ES
dc.description.accrualMethod SWORD es_ES
dc.relation.publisherversion https://doi.org/10.4995/ijpme.2014.1609 es_ES
dc.description.upvformatpinicio 23 es_ES
dc.description.upvformatpfin 36 es_ES
dc.description.volume 2
dc.description.issue 1
dc.identifier.eissn 2340-4876
dc.description.references Chen, K. S., Huang, M. L., & Li, R. K. (2001). Process capability analysis for an entire product. International Journal of Production Research, 39(17), 4077-4087. doi:10.1080/00207540110073082 es_ES
dc.description.references Mast, J. de, Roes, K. C. B., & Does, R. J. M. M. (2001). THE MULTI-VARI CHART: A SYSTEMATIC APPROACH. Quality Engineering, 13(3), 437-447. doi:10.1080/08982110108918672 es_ES
dc.description.references Douglas, C.M. (2003). Introduction to Statistical Quality Control. New York, NY: John Wiley Publications. es_ES
dc.description.references Flaig, J.J. (2006). Selecting Optimal Specification Limits. Quality Technology & Quantitative Management, 3(2), 207-216. es_ES
dc.description.references Flaig, J. J. (2009). A unifying process capability metric. Journal of Industrial Engineering and Management, 2(1). doi:10.3926/jiem.2009.v2n1.p48-59 es_ES
dc.description.references Jacobson, J.M., Johnson, M.J. (2006). Lean and Six Sigma: Not for Amateurs. LabMedicine 37(4):140-145. es_ES
dc.description.references Laureani, A., Antony, J., & Douglas, A. (2010). Lean six sigma in a call centre: a case study. International Journal of Productivity and Performance Management, 59(8), 757-768. doi:10.1108/17410401011089454 es_ES
dc.description.references Mahesh, B.P., Prabhuswamy, M.S. (2010b). Process Variability Reduction through Statistical Process Control for Quality Improvement. International Journal for Quality research, 4(3), 193-203.Plecko, A., Vujica, H.N., Polajnar, A. (2009). An Application of six sigma in manufacturing company. Advances in Production Engineering and Management, 4, 243-254. es_ES
dc.description.references Ribardo, C., & Allen, T. T. (2003). An alternative desirability function for achieving ?six sigma? quality. Quality and Reliability Engineering International, 19(3), 227-240. doi:10.1002/qre.523 es_ES
dc.description.references Linn, R. J., Tsung, F., & Ellis, L. W. C. (2006). Supplier Selection Based on Process Capability and Price Analysis. Quality Engineering, 18(2), 123-129. doi:10.1080/08982110600567475 es_ES
dc.description.references Sivasamy, R., Santhakumaran, A., & Subramanian, C. (2000). CONTROL CHART FOR MARKOV-DEPENDENT SAMPLE SIZE. Quality Engineering, 12(4), 593-601. doi:10.1080/08982110008962624 es_ES


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