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Using AHP and TOPSIS to evaluate welding processes for manufacturing plain carbon stainless steel storage tank

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: In the plain carbon stainless steel storage tank manufacturing industry, there are many types of welding processes used. When selecting the most appropriate welding process is usually done intuitively by the manufacturer depending on its own pre-experiences or common applications in similar companies. However, this approach has a shortsighted view since it generally ignores many conflicting criteria effecting the suitable welding process selection. To overcome this problem, this study aims to evaluate important criteria and alternative welding processes by using some of multi-criteria decision-making approaches to come up with better manufacturing decisions. Design/methodology/approach: This study uses a combined methodology of Analytical Hierarchy Process (AHP) and Technique for Order Preference by Similarity to Ideal Solution (TOPSIS). Since both of these techniques require experts’ contributions, a group meeting is held with the experts from academia and industry. Findings: The study identified the important criteria for welding selection process in storage tank manufacturing. With the help of experts in the domain, both weights of decision criteria and ranking of alternative welding processes were determined. Research limitations/implications: Since the techniques used in the study depend on expert’s contribution, the expert knowledge on the welding process is critical. When the expert changes the resulting decision may also change. Therefore, the selection of the expert(s) must be done carefully. Practical implications: The findings of the study are valid for the specific case of the storage tank manufacturing. The study helps manufacturers to understand the framework of welding process selection and make them aware of various techniques (e.g., AHP and TOPSIS). The approach may also be welcomed by other welding applications. Originality/value: The main contribution of the study is mostly on the practical side. To the authors’ best knowledge, this paper is one of few studies investigating the selection of welding process for a plain carbon stainless steel storage tank manufacturing. It may help to increase the attention of researchers on multi-criteria decision-making applications in the welding field.
Rocznik
Strony
157--162
Opis fizyczny
Bibliogr. 18 poz.
Twórcy
autor
  • Namık Kemal University, Faculty of Corlu Engineering, Department of Industrial Engineering, 59860 Çorlu, Tekirdağ, Turkey
autor
  • Pamukkale University, Faculty of Engineering, Department of Mechanical Engineering, 20160 Kınıklı, Denizli, Turkey
autor
  • Ostbayrische Technische Hochschule Regensburg, Fakultät Maschinenbau, Galgenbergstrasse 30, 93053 Regensburg, Germany
autor
  • Pamukkale University, Faculty of Engineering, Department of Industrial Engineering, 20160 Kınıklı, Denizli, Turkey
Bibliografia
  • [1] V. Balasubramanian, R. Varahamoorthy, C.S. Ramachandran, C. Muralidharan, Selection of welding process for hardfacing on carbon steels based on quantitative and qualitative factors, The International Journal of Advanced Manufacturing Technology 40 (2009) 887-897.
  • [2] O. Capraz, C. Meran, A. Gungor, Welding process selection for stainless steel milk storage tank using multi-criteria decision making tools, Proceedings of 15th International Materials Symposium (IMSP’2014), Denizli - Turkey, 2014, 784-793.
  • [3] D.S. Correia, V.A. Ferraresi, Welding process selection through a double criteria: Operational costs and nonquality costs, Journal of materials processing technology 184 (2007) 47-55.
  • [4] S.M. Darwish, A.A. Tamimi, S. Al-Habdan, A knowledge base for metal welding process selection, International Journal of Machine Tools and Manufacture 37 (1997) 1007-1023.
  • [5] M. Jafarian, S.E. Vahdat, A fuzzy multi-attribute approach to select the welding process at high pressure vessel manufacturing, Journal of Manufa-cturing Processes 14 (2012) 250-256.
  • [6] S.M. Mirhedayatian, S.E. Vahdat, M.J. Jelodar, R.F. Saen, Welding process selection for repairing nodular cast iron engine block by integrated fuzzy data envelopment analysis and TOPSIS approaches, Materials & Design 43 (2013) 272-282.
  • [7] C. Muralidharan, N. Anantharaman, V. Balasubramanian, S.G. Deshmukh, Selection of welding process using analytic hierarchy process, Institution of Engineers (India), Mechanical Engineering Division 80 (1999) 151-154.
  • [8] V. Ravisankar, V. Balasubramanian, C. Muralidharan, Selection of welding process to fabricate butt joints of high strength aluminium alloys using analytic hierarchic process, Materials & Design 27 (2006) 373-380.
  • [9] T.L. Saaty, Decision making for leaders: the analytic hierarchy process for decisions in a complex world. 3rd revised edition, RWS publications, 2012.
  • [10] T.L. Saaty, L.G. Vargas, Decision making in economic, political, social, and technological environments with the analytic hierarchy process. 1st edition, RWS publications, 1994.
  • [11] N. Subramanian, R. Ramanathan, A review of applications of Analytic Hierarchy Process in operations management, International Journal of Production Economics 138 (2012) 215-241.
  • [12] O.S. Vaidya, S. Kumar, Analytic hierarchy process: An overview of applications, European Journal of Operational Research 169 (2006) 1-29.
  • [13] C.L. Hwang, K. Yoon, Multiple Attribute Decision Making. Springer-Verlag, Berlin, 1981.
  • [14] M. Behzadian, S. Khanmohammadi Otaghsara, M. Yazdani, J. Ignatius, A state-of the-art survey of TOPSIS applications, Expert Systems with Applications 39 (2012) 13051-13069.
  • [15] M.F. Chen, G.H. Tzeng, Combining grey relation and TOPSIS concepts for selecting an expatriate host country, Mathematical and Computer Modeling 40 (2004) 1473-1490.
  • [16] http://www.aws.org/educators/Library/0000/000506.p pt, 31/08/2014.
  • [17] http://www.corrosionpedia.com/definition/583/gastungsten-arc-welding-gtaw, 31/08/2014.
  • [18] http://www.twi-global.com/technical-knowledge/jobknowledge/submerged-arc-welding-process 005/31/08/2014.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bc129fbd-609f-47df-8155-be91d9fc62c7
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