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International Journal of Neutrosophic Science
Volume 18 , Issue 1, PP: 73-81 , 2022 | Cite this article as | XML | Html |PDF


Mcdm WASPA in a Neutrosophic Environment Applied to Optimization of the Parameters for Minimization of Surface Roughness and Machining Deformation in Milling of Al Alloy Thin Walled Parts.

Authors Names :   Hiovanis Castillo Pantoja   1 *     Ángel Eugenio Infante Haynes   2  

1  Affiliation :  University of Holguin, Cuba

    Email :  sotosilva74@gmail.com

2  Affiliation :  University of Holguin, Cuba

    Email :  ehaynes@uho.edu.cu

Doi   :   https://doi.org/10.54216/IJNS.180107

Received Aug. 22, 2021 Accepted: Jan 11, 2022

Abstract :

The following research shows a methodology that combines the multicriteria method WASPAS and Neutrosophic, which seeks to improve decision making within the planning processes in machine shops. With WASPAS the best alternative is selected and Neutrosophic offers us the advantage of driving the concept of uncertainties and neutralities, and with it the values of the input variables for high speed machining to manufacture the rectangular piece of aluminum alloy 5083. With the evaluation of the criteria, when applying the method it is obtained as objective that the alternative ten is the best, therefore, when implementing the input parameters: S = 15000 rpm, doc= 0.10 mm, ts= 3.0 mm, F= 3600 m/min, the surface quality and low deformation of the part is guaranteed. It is concluded that the WASPAS multicriteria analysis method with neutrosophy is an excellent tool, with a low cost and good reliability, as a solution to be applied in machining shops to improve decision making in process planning processes from the optimal selection of machining parameters.

Keywords :

Milling , Thin‑Walled , multi-criteria optimization , WASPAS , Neutrosophy , HSM.

References :

[1]           G. F. Can, "An intutionistic approach based on failure mode and effect analysis for prioritizing corrective and preventive strategies," Human Factors and Ergonomics in Manufacturing & Service Industries, vol. 28, pp. 130-147, 2018.

[2]           F. Ecer, D. Pamucar, S. H. Zolfani, and M. K. Eshkalag, "Sustainability assessment of OPEC countries: Application of a multiple attribute decision making tool," Journal of Cleaner Production, vol. 241, p. 118324, 2019.

[3]           M. Keshavarz-Ghorabaee, K. Govindan, M. Amiri, E. K. Zavadskas, and J. Antuchevičienė, "An integrated type-2 fuzzy decision model based on WASPAS and SECA for evaluation of sustainable manufacturing strategies," Journal of Environmental Engineering and Landscape Management, vol. 27, pp. 187-200, 2019.

[4]           A. R. Mishra, P. Rani, K. R. Pardasani, and A. Mardani, "A novel hesitant fuzzy WASPAS method for assessment of green supplier problem based on exponential information measures," Journal of Cleaner Production, vol. 238, p. 117901, 2019.

[5]           H. Prajapati, R. Kant, and R. Shankar, "Prioritizing the solutions of reverse logistics implementation to mitigate its barriers: A hybrid modified SWARA and WASPAS approach," Journal of Cleaner Production, vol. 240, p. 118219, 2019.

[6]           M. A. Sofuoğlu, "Fuzzy Applications of FUCOM Method in Manufacturing Environment," Journal of Polytechnic, 2019.

[7]           C. Zhang, Q. Wang, S. Zeng, T. Baležentis, D. Štreimikienė, I. Ališauskaitė-Šeškienė, et al., "Probabilistic multi-criteria assessment of renewable micro-generation technologies in households," Journal of Cleaner Production, vol. 212, pp. 582-592, 2019.

[8]           C. Kul, L. Zhang, and Y. A. Solangi, "Assessing the renewable energy investment risk factors for sustainable development in Turkey," Journal of Cleaner Production, vol. 276, p. 124164, 2020.

[9]           D. Pamučar, M. Behzad, D. Božanić, and M. Behzad, "Decision making to support sustainable energy policies corresponding to agriculture sector: Case study in Iran’s Caspian Sea coastline," Journal of Cleaner Production, vol. 292, p. 125302, 2021.

[10]         E. Boltürk and F. Kutlu Gündoğdu, "Prioritizing Manufacturing Challenges of a Contract Manufacturing Company for Personal Auto by Using Spherical WASPAS Method," in Decision Making with Spherical Fuzzy Sets, ed, 2021, pp. 259-275.

[11]         Q. Li, Y. Ma, and S. Zhu, "Single valued Neutrosophic clustering algorithm Based on Tsallis Entropy Maximization," MDPI, 2018.

[12]         F. Samarandache, "Introduction to Neutrosophic Statistics," Sitech & Education Publishing 2014.

[13]         F. Smarandache, "A Unifying Field in Logics: Neutrosophic Logic. Neutrosophy, Neutrosophic Set, Neutrosophic Probability: Neutrsophic Logic. Neutrosophy, Neutrosophic Set, Neutrosophic Probability: Infinite Study.," 2005.

[14]         M. Leyva Vázquez and F. Smarandache, "Neutrosofía: Nuevos avances en el tratamiento de la incertidumbre," Pons, Bruselas. , 2018.

[15]         J. L. a. F. S. Salmerona, "Redesigning Decision Matrix Method with an indeterminacy-based inference process. Multispace and Multistructure. ," Neutrosophic Transdisciplinarity (100 Collected Papers of Sciences), vol. 4, p. 151, 2010.

[16]         M. Ali, Shabir, M., Smarandache, F., and Vladareanu, L. , "Neutrosophic LA-semigroup Rings," Neutrosophic Sets and Systems, vol. 7, pp. 81-88, 2015.

[17]         A. Sleem, M. Abdel-Baset, and I. El-henawy, "PyIVNS: A python based tool for Interval-valued neutrosophic operations and normalization," SoftwareX, 2020.

[18]         F. Smarandache, M. A. Quiroz-Martínez, J. E. Ricardo, N. B. Hernández, and M. Y. L. Vázquez, "Application of neutrosophic offsets for digital image processing," Investig. Operacional, 2020.

[19]         A. D. M. Manzano, J. Y. V. Villegas, L. M. O. Escobar, and L. T. Jiménez, "Neutrosophic Analysis of the Facultative Vote in the Electoral Process of Ecuador," Neutrosophic Sets and Systems, vol. 37, pp. 355-360, 2020.

[20]         D. Coka Flores, J. R. Cadena Morillo, C. G. Rosero Martínez, and W. Ortiz Aguilar, "Selection of Experts to Validate a Research Proposal Using a Neutrosophic Method," Neutrosophic Sets and Systems, vol. 37, pp. 71-80, 2020.

[21]         A. Abdel-Monem and A. Abdel Gawad, "A hybrid Model Using MCDM Methods and Bipolar Neutrosophic Sets for Select Optimal Wind Turbine: Case Study in Egypt," Neutrosophic Sets and Systems, vol. 42, pp. 1-27, 2021.

[22]         W. V. Kandasamy and F. Smarandache, "Fuzzy Neutrosophic Models for Social Scientists.," Education Publisher Inc., (2013)

[23]         W. B. V. a. F. S. Kandasamy, "Fuzzy cognitive maps and neutrosophic cognitive maps. ," American Research Press., 2003.

[24]         R. Şahin and M. Yiğider, "A Multi-criteria neutrosophic group decision making metod based TOPSIS for supplier selection," arXiv preprint arXiv:1412.5077. , 2014.

[25]         M. Leyva-Vázquez, M. A. Quiroz-Martínez, Y. Portilla-Castell, J. R. Hechavarría-Hernández, and E. González-Caballero, "A New Model for the Selection of Information Technology Project in a Neutrosophic Environment," Neutrosophic Sets Syst., p. 344.

[26]         F. X. De‑Jun Cheng, Sheng‑Hao Xu, Chun‑Yan Zhang, Sheng‑Wen Zhang, Su‑Jin Kim, "Minimization of Surface Roughness and Machining Deformation in Milling of Al Alloy Thin‑Walled Parts," International Journal of Precision Engineering and Manufacturing, p. 17, 2020.



Cite this Article as :
Hiovanis Castillo Pantoja , Ángel Eugenio Infante Haynes, Mcdm WASPA in a Neutrosophic Environment Applied to Optimization of the Parameters for Minimization of Surface Roughness and Machining Deformation in Milling of Al Alloy Thin Walled Parts., International Journal of Neutrosophic Science, Vol. 18 , No. 1 , (2022) : 73-81 (Doi   :  https://doi.org/10.54216/IJNS.180107)