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Proposal for Process StandarDization for Continuous Improvement in a Peruvian Textile Sector Company

  • Miguel ArévaloEmail author
  • José MontenegroEmail author
  • Gino ViacavaEmail author
  • Carlos RaymundoEmail author
  • Francisco DominguezEmail author
Conference paper
Part of the Advances in Intelligent Systems and Computing book series (AISC, volume 1026)

Abstract

This article explores the application of continuous improvement tools in company M4C1 to improve processes and production procedure for a production line of polo shirts and the distribution of workstations to provide a more efficient flow, thereby reducing non-productive times of materials and people transportation. The steps to determine the correct approach of the procedures to control excess in production times and reprocesses for its correct implementation, flow charts, and work indicators to measure the production processes of polo shirts will be described. The Arena Simulation tool will then be used to simulate the operation of the production process of polo shirts and to compare the results before and after implementation. Finally, the conclusions of the project will be presented.

Keywords

Systematic layout planning (SLP) Textile Value chain Cotton Lean introduction 

References

  1. 1.
    Sarria Yépez, M.P., Fonseca Villamarín, G.A., Bocanegra, C.C.: Modelo metodológico de implementación de lean manufacturing. Rev. EAN 83, 51–71 (2017)Google Scholar
  2. 2.
    Srinivasan, S., Ikuma, L.H., Shakouri, M., Nahmens, I., Harvey, C.: 5S impact on safety climate of manufacturing workers. J. Manufact. Technol. Manage. 27(3), 364–378 (2016)CrossRefGoogle Scholar
  3. 3.
    Vargas-hernández, J., Muratallabautista, G., Jiménez-castillo, M.: Lean manufacturing ¿una herramienta de mejora de un sistema de producción? steadiness approach and change approach in perspective of industrial engineer. Exploratory Study Decisional Propensity 17, 153–174 (1856)Google Scholar
  4. 4.
    Bellido, Y., Rosa, A.L., Torres, C., Quispe, G., Raymundo, C.: Waste optimization model based on Lean Manufacturing to increase productivity in micro- and small-medium enter-prises of the textile sector. In: CICIC 2018 - Octava Conferencia Iberoamericana de Complejidad, Informatica y Cibernetica, Memorias, vol. 1, pp. 148–153 (2018)Google Scholar
  5. 5.
    Lamprea, E.J.H., Carreño, Z.M.C., Sánchez, P.M.T.M.: Impact of 5S on productivity, quality, organizational climate and industrial safety in Caucho Metal Ltda. Ingeniare. Rev. Chil. Ing. 23(1), 107–117 (2015)CrossRefGoogle Scholar
  6. 6.
    Omogbai, O., Salonitis, K.: The implementation of 5S lean tool using system dynamics approach. Procedia CIRP 60, 380–385 (2017)CrossRefGoogle Scholar
  7. 7.
    Alarcón-Grisales, D.R., PeñaOrozco, D.L., Rivera-Rozo, F.J.: Análisis dinámico de la capacidad de respuesta de una cadena de suministros de productos tecnológicos. Caso Samsung*. Entramado 12(2), 254–275 (2016)CrossRefGoogle Scholar
  8. 8.
    López, M.D.R., Grajales, M.H., Corrales, M.E.V.: Lean construction – LC bajo pensamiento lean. Rev. Ing. Univ. Medellín 16(30), 115–128 (2017)Google Scholar
  9. 9.
    Sundar, R., Balaji, A.N., Satheesh Kumar, R.M.: A review on lean manufacturing implementation techniques. Procedia Eng. 97, 1875–1885 (2014)CrossRefGoogle Scholar
  10. 10.
    Nyemba, W.R., Mbohwa, C.: Modelling, simulation and optimization of the materials flow of a multi-product assembling plant. Procedia Manufact. 8, 59–66 (2017)CrossRefGoogle Scholar

Copyright information

© Springer Nature Switzerland AG 2020

Authors and Affiliations

  1. 1.Ingeniería IndustrialUniversidad Peruana de Ciencias Aplicadas (UPC)LimaPeru
  2. 2.Dirección de InvestigaciónUniversidad Peruana de Ciencias Aplicadas (UPC)LimaPeru
  3. 3.Escuela Superior de Ingeniera InformáticaUniversidad Rey Juan CarlosMadridSpain

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