Application of SMED in industry: Systematic review of the literature through VOSviewer
Aplicación del SMED en la industria: Revisión sistemática de la literatura a través de VOSviewer
Article Sidebar
HTML (Español (España))
PDF (Español (España))
FLIP
Main Article Content
Perfil Google Scholar
At present, bibliometric analysis plays a fundamental role in the search for quantitative methods to identify trends and impact at the scientific level of research fields. This analysis was carried out for the SMED (Single Minute Exchange of Die) tool in the industrial sector, identifying network maps of co-occurrence, co-citation and co-authorship of keywords, authors and countries, respectively, in known bibliographic software. like VOSviewer. The purpose of this document is to implement a bibliometric analysis through the literature to know the characteristics and impact of the SMED over time. For the execution of the document, a search equation has been taken into account in the Scopus database, finding 433 articles related to SMED in industrial sectors. To this end, the tool can be applied in the automotive, textile and metalworking sectors both in production lines and in machines and the countries that lead scientific production are India, China and the United States; in contrast, no scientific production has been identified in Colombia. Finally, organizations in the industrial sector require the SMED tool to reduce costs and at the same time increase productivity in a tool change process.
Downloads
Article Details
Ahmad, R. & Soberi, M. (2018). Changeover process improvement based on modified SMED method and other process improvement tools application: an improvement project of 5-axis CNC machine operation in advanced composite manufacturing industry. doi: 10.1007/s00170-017-0827-7
Amrina, U., Junaedi, D. & Prasetyo, E. (2018). Setup Reduction in Injection Moulding Machine Type JT220RAD by Applying Single Minutes Exchange of Die (SMED). doi: 10.1088/1757-899X/453/1/012033
Antosz, K. & Pacana, A. (2018). Comparative analysis of the implementation of the SMED method on selected production stands. doi: 10.17559/TV-20160411095705
Azizi, A. & Manoharan, P. (2015). Designing a Future Value Stream Mapping to Reduce Lead Time Using SMED-A Case Study. doi: https://doi.org/10.1016/j.promfg.2015.07.027
Balon, P. & Buchtová, J. (2015). Application of smed methodology in deep drawn stamping. METAL 2015. Conferencia llevado a cabo en el 24th International Conference on Metallurgy and Materials. Brno, Czech Republic, EU.
Basri, A. & Mohamed, N. (2017). The study of extended single minute exchange of die (smed) method in 1200 tonnage tandem press line for operation improvement. Proceedings of International Conference on Computers and Industrial Engineering, CIE. Recuperado de: https://pdfs.semanticscholar.org/bae5/20c4943386dd48c830bf5eceba6c5393923d.pdf?_ga=2.167468478.1835840070.1568923474-952965919.1568923474
Dillon, A. P. & Shingo, S. (1985). A revolution in manufacturing: The SMED system. Recuperado de: https://www.academia.edu/35100118/A_Revolution_in_Manufacturing_The_SMED_System_-_by_Shigeo_Shingo_translated_by_Andrew_P._Dillon_
Fortuny, J. Ruiz de Arbulo, P., Luján, I. & Kuo, P. (2020). Assessing the synergies between lean manufacturing and Industry 4.0. Recuperado de: https://upcommons.upc.edu/bitstream/handle/2117/328041/DyOsmartleanR1.pdf;jsessionid=314979598FD548146488655EFB0B3A34?sequence=1
Fujita, K., Kajikawa, Y., Mori, J. & Sakata, I. (2014). Detecting research fronts using different types of weighted citation networks. Journal of Engineering and Technology Management, 32, 129–146. https://doi.org/10.1016/j. jengtecman.2013.07.002
Kurniawan, R., Nurlaila, Q. & Armila, A. (2018). Comparative Study of Conventional and Quick Die Change Stamping Process: The Issue of Setup Time and Storage. International Journal of Engineering Materials and Manufacture, 3(4), 216-223. doi: https://doi.org/10.26776/ijemm.03.04.2018.06
Naghizadeh, R., Elahi, S., Manteghi, M., Ghazinoory, S. & Ranga, M. (2015). Through the magnifying glass: an analysis of regional innovation models based on coword and meta-synthesis methods. Quality and Quantity, 49(6), 2481–2505. https://doi.org/10.1007/s11135-014-0123-7
Prasetyo, Y. & Veroya, F. (2020). An Application of Overall Equipment Effectiveness
(OEE) for Minimizing the Bottleneck Process in Semiconductor Industry. doi: 10.1109 / ICIEA49774.2020.9101925
Rosa, C., Silva, F. J. G., Pinto, L. & Campilho, R. (2017). SMED methodology: The reduction of setup times for Steel Wire-Rope assembly lines in the automotive industry. doi: https://doi.org/10.1016/j.promfg.2017.09.110
Sabadka, D., Molnar, V. & Fedorko, G. (2017). The use of lean manufacturing techniques – SMED analysis to optimization of the production process. doi: 10.12913/22998624/76067
Sanders, A., Subramanian, K., Redlich, T. & Wulfsberg, J. (2017). A Systematic Interaction Approach to Determine the Compatibility of Industry 4.0 and Lean Management in Manufacturing Environment. Springer International Publishing AG 2017, IFIP AICT 514, 341–349. doi: 10.1007/978-3-319-66926-7_39
Skotnicka, B., Wolniak, R y Gębalska, A. (2018). Improving the efficiency of the production process using SMED. MATEC Web of Conferences. https://doi.org/10.1051/matecconf/201818301002
Sorensen, A., Seary, A. & Riopelle, K. (2010). Alzheimer's Disease Research: A COIN Study Using Co-authorship Network Analytics. Procedia Social and Behavioral Sciences, 4(2), 6582-6586.
Sousa, E., Silva, F.J.G., Ferreira, L.P., Pereira, M.T., Gouveia, R., & Silva, R.P. (2018). Applying SMED methodology in cork stoppers production. doi: https://doi.org/10.1016/j.promfg.2018.10.103
