Abstract
The international competition has challenged managers in Latin America to implement state-of-the-art methodologies for problem-solving and continuous improvement, and specifically, the production process validation has become an issue when it has to be completed in a short time span. Typically, the validation activities for critical equipment are performed at least a week prior to the official production launch. If, for any reason, the equipment gets into the plant late, any time taken by the validation process may impact the startup of the line. On the other hand, if production is started without validating the equipment, and performance is not as expected, then, the plant must start a cycle of process improvement activities to get the performance to the expected levels. In general, the continuous improvement activities are organized around two major methodologies: Lean Manufacturing and Six Sigma. While the Lean approach tends to be of a quick-fix type, it gets shorthanded when the causes are not so obvious, and deeper statistical analyses are required. On the other hand, Six Sigma works better when there is plenty of time to conduct all types of tests and analyses to achieve a good cost-effective solution. This chapter explores a combination of the Lean Manufacturing speed with the Six Sigma power of analysis, arranged as a set of sequential steps, for solving industrial problems and giving cost-effective solutions in a short time span. This is achieved by following a strategy identified by these authors as the E-Strategy, which is divided into two phases, the diagnostic and the solution phase. It uses a hierarchical approach of analysis for identifying the root cause of the problem. From the most frequent causes, the problems are eliminated adapting and using the most efficient set of tools. In the E-Strategy, as the complexity of the problem increases, the tools used get more specialized and elaborated. In this chapter, a case study is included as an example of the use of this methodology. The case study shows that the use of the Lean-Sigma approach is effective when following the E-Strategy sequence, and leads to improvements in overall performance. The description focuses on the efforts for increasing the conforming outcomes from a crimping process. A pull test is used for performance evaluation of the outcomes. Initial data shows an overall performance of a sigma level of 1.1. However, after following the E-Strategy, running a Taguchi experiment, and performing a series of adjustments a final process evaluation shows an increment to a sigma level of 5.5 for the performance, and a three times reduction in the variation of the process, achieving this solution in a short period of time of 3 days.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Alba-Baena N, Estrada FJ, Sierra Torres OO (2016) Using Lean-Sigma for the integration of two products during a ramp-up event. In: Giner A-H, Cuauhtémoc S-R, Jorge Luis G-A (eds) Handbook of research on managerial strategies for achieving optimal performance in industrial processes. IGI Global, Hershey, pp 405–427. https://doi.org/10.4018/978-1-5225-0130-5.ch019
Camacho J, Baena NA, Hernández A, Molina J, Barrera MFR, de León DZ (2016) Improvement of productivity in a production line through the implementation of a specialized program to capture the metric of overall efficiency of the “OEE” equipment. CULCyT 55(12):146–154 (in Spanish)
Contreras ÓF, Carrillo J, Garcia H, Olea MJ (2006) Labor performance of the maquiladoras: an assessment of safety at work. Front norte 18:55–86 (in Spanish)
Coy MR, Salazar JM, Martínez LFF, Baena NA (2016) Application of the Six Sigma Methodology to control the significant parameters in the production of a Nylon glove with Latex coating. CULCyT 58(13):271–283 [In Spanish]
Deming WE (2000) Out of the crisis. 1st edn. The W. Edwards Deming Institute. MIT Press 2000, ©1982, 1986
De la Cruz Rodríguez MI, Estrada-Orantes FJ, Mendoza MD, Saldaña JFE, Rodríguez RR (2016) Methodology for the continuous improvement of manufacturing processes based on lean sigma and applied to the process of manufacturing automotive harnesses. CULCyT 56(12):94–106 (in Spanish)
Estrada-Orantes FJ, Alba-Baena NG (2014) Creating the Lean-Sigma synergy. In: García-Alcaraz JL, Maldonado-Macías AA, Cortes-Robles G (eds) Lean manufacturing in the developing world: methodology, case studies and trends from Latin America. Springer International Publishing, Cham, pp 117–134. https://doi.org/10.1007/978-3-319-04951-9_6
Gracia OC, Estrada-Orantes FJ, Pérez FH (2016) Application of the Lean-Sigma methodology in the solution of problems in manufacturing processes: case study. CULCyT 57(12):199–211 (in Spanish)
George ML (2002) Lean six sigma: combining six sigma quality with lean speed. McGraw-Hill
George ML, George M (2003) Lean six sigma for service. McGraw-Hill, New York
George ML, Rowlands D, Price M, John M (2005) The lean six sigma pocket tool book. Mc-Graw-Hill
Gershwin SB (2017) The future of manufacturing systems engineering. Int J Prod Res 56(1–2):224–237
Heuvel, LNV, Donal KL, Jackson LO, Hanson WO, Rooney JJ, Walker DA (2008) Root cause analysis handbook, 3rd edn. ABS Consulting, Rothstein Associates, Inc.
López DR, Gaytán MCC, Baena NA, Orantes FE (2016) Design of a station for measurement and analysis of the cable crimping process. CULCyT 58(13):203–212 (in Spanish)
Ohno T (1988 June) Toyota production system—beyond large-scale production. Productivity Press, pp 25–28. ISBN 0915299143
Pande PS, Neuman RP, Cavanach RR (2000) The six sigma way. McGraw-Hill, New York, NY, USA
Rath & Strong (2000) Six sigma pocket guide. Rath & Strong Management Consultants, Sixth Printing 2001
Romo JS, Baena NA, González JR, Pérez DMA, Estrada-Orantes FJ (2016) Redesign and characterization of an electrical test equipment in the Jack Bam product assembly. CULCyT 59(13):26–37 (in Spanish)
Rother M (2010) Toyota Kata. Managing people for improvement, adaptiveness, and superior results. McGraw-Hill, New York
Schonberger RJ (1986) World class manufacturing, the lessons of simplicity applied, 1st edn. The Free Press, New York
Wilson PA (2010) Maquiladoras. Texas State Historical Association. http://www.tshaonline.org/handbook/online/articles/dzm02. Accessed 26 Oct 2017
Womack JP, Jones DT (1996) Lean thinking, 1st edn. Simon & Schuster. ISBN 0-684-81035-2
Womack JP, Jones DT, Roos D (1990) The machine that changed the world, First Harper Perennial edition, 1991. ISBN 0-06-097417-6
Yang K, El-Haik B (2003) Design for six sigma: a roadmap for product development. McGraw Hill, New York
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Estrada-Orantes, F.J., García-Pérez, A.H., Alba-Baena, N.G. (2019). The E-Strategy for Lean-Sigma Solutions, Latin American Case Study in a New Product Validation Process. In: García Alcaraz, J., Rivera Cadavid, L., González-Ramírez, R., Leal Jamil, G., Chong Chong, M. (eds) Best Practices in Manufacturing Processes. Springer, Cham. https://doi.org/10.1007/978-3-319-99190-0_14
Download citation
DOI: https://doi.org/10.1007/978-3-319-99190-0_14
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-99189-4
Online ISBN: 978-3-319-99190-0
eBook Packages: EngineeringEngineering (R0)