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An integrated approach in selecting the optimal insulation plaster mortar series
Języki publikacji
Abstrakty
W niniejszym artykule zaproponowano metodę Taguchiego do rozwiązania hierarchicznej analizy problemu decyzyjnego [Analytic Hierarchy Process - AHP] oraz metodę Simple Additive Weighting [SAW] w celu znalezienia optymalnej serii zapraw tynkarskich do izolacji, w oparciu o wiele kryteriów. Najpierw zastosowano metodę Taguchi w celu określenia planu eksperymentu z czynnikami: cementem, wapnem, dolomitem i perlitem na trzech poziomach dozowania, dla każdego z nich z ortogonalnym planem L9. Następnie, zgodnie z projektem, przeprowadzono eksperymenty metodą ultradźwiękową, określono wytrzymałość na ściskanie, przyczepność, nasiąkliwość kapilarną i przewodność cieplną. Wagi ważności kryteriów uzyskano metodą AHP, a punktację poszczególnych serii obliczono metodą SAW. Na podstawie wyników uzyskano optymalne poziomy czynników i otrzymano optymalne składy.
In this study, an integrated approach by Taguchi, Analytic Hierarchy Process [AHP] and Simple Additive Weighting [SAW] method was proposed to find out the optimal insulation plaster mortar series, based on multiple criteria. Firstly, Taguchi method was applied to define the experimental design plan, with the factors of cement, lime, dolomite and perlite in three levels for each with L9 orthogonal design. Then, ultrasonic pulse velocity, compressive strength, bond strength, capillarity water absorption and thermal conductivity experiments, were made according to the design. The importance weights of criteria were obtained by AHP and the scores of the series were calculated by SAW method. The factors’ optimum levels were obtained based on the scores and the optimal series was proposed.
Wydawca
Czasopismo
Rocznik
Tom
Strony
32--44
Opis fizyczny
Bibliogr. 24 poz., il., tab.
Twórcy
autor
- Department of Civil Engineering, Kutahya Dumlupinar University, Kutahya, Turkey
Bibliografia
- 1. K. Onoue, H. Tamai, H. Suseno, Shock-absorbing capability of lightweight concrete utilizing volcanic pumice aggregate. Constr. Build. Mater. 83, 261-274 (2015). https://doi.org/10.1016/j.conbuildmat.2015.03.019
- 2. H. Tanyıldızı, M. Şahin, Application of Taguchi method for optimization of concrete strengthened with polymer after high temperature. Constr. Build. Mater. 79, 97-103 (2015). https://doi.org/10.1016/j.conbuildmat.2015.01.039
- 3. M.N. Hadi, N.A. Farhan, M.N. Sheikh, Design of geopolymer concrete with GGBFS at ambient curing condition using Taguchi method. Constr. Build. Mater. 140, 424-431 (2017). https://doi.org/10.1016/j.conbuildmat.2017.02.131
- 4. A. Mehta, R. Siddique, B.P. Singh, S. Aggoun, G. Lagód, D. Barnat-Hunek, Influence of various parameters on strength and absorption properties of fly ash based geopolymer concrete designed by Taguchi method. Constr. Build. Mater. 150, 817-824 (2017).
- 5. T. Lerher, Design of Experiments for Identifying the Throughput Performance of Shuttle-Based Storage and Retrieval Systems. Proc. Eng. 187, 324-334 (2017).
- 6. S.A. Jahan, T. Wu, Y. Zhang, J. Zhang, A. Tovar, H. Elmounayri, Thermomechanical Design Optimization of Conformal Cooling Channels using Design of Experiments Approach. Proc. Manufact. 10, 898-911 (2017). https://doi.org/10.1016/j.promfg.2017.07.078
- 7. R. B. Iffa, N. Bouaziz, L. Kairouani, Optimization of Absorption Refrigeration Systems by Design of Experiments Method. Energy Proc. 139, 280-287 (2017). https://doi.org/10.1016/j.egypro.2017.11.209
- 8. L. Fangyao, Y. Shi, L. Najjar, Application of Design of Experiment Method for Sports Results Prediction. Proc. Computer Sci. 122, 720-726 (2017). https://doi.org/0.1016/j.procs.2017.11.429
- 9. A.H. Sevinç, M.Y. Durgun, M. Eken, A Taguchi approach for investigating the engineering properties of concretes incorporating barite, colemanite, basaltic pumice and ground blast furnace slag. Constr. Build. Mater. 135, 343-351(2017).
- 10. R. Bala, S. Sharma, Formulation Optimization and Evaluation of Fast Dissolving Film of Aprepitant by Using Design of Experiment. Bull. Faculty of Pharmacy, Cairo University. 56(2), 159-168 (2018). https://doi.org/10.1016/j.bfopcu.2018.04.002
- 11. M.H. Suhartono, N. Suhermi, D.D. Prastyo, Design of Experiment to Optimize the Architecture of Deep Learning for Nonlinear Time Series Forecasting. Proc. Computer Sci. 144, 269-276 (2018). https://doi.org/10.1016/j.procs.2018.10.528
- 12. A. M. Munawar, D.W. Schubert, S.M. Khan, M.A.U. Rehman, N. Gull, A. Islam, A. Sabir, M. Shafiq, B. Haider, M. Azam, S.U. Khan, M.M. Voigt, Investigation of functional, physical, mechanical and thermal properties of TiO2 embedded polyester hybrid composites: A design of experiment (DoE) study’. Prog. Nat. Sci. Mater. Int. 28(3), 266-274 (2018).
- 13. H. Eskandari-Naddaf, M. Azimi-Pour, Performance evaluation of dry-pressed concrete curbs with variable cement grades by using Taguchi method. Ain Shams Eng. J. 9(4), 1357-1364 (2018). https://doi.org/10.1016/j.asej.2016.09.004
- 14. G. Başar, F. Kahraman, H. Kuş, Bronz Esaslı Kompozit Sürtünme Malzemelerin Üç Nokta Eğme Mukavemetinin Taguchi Metodu ile Optimizasyonu. El-Cezeri J. Sci. Eng. 5(2), 626-634 (2018). https://doi.org/10.31202/ecjse.391936
- 15. M. Srivastava, S. Rathee, S. Maheshwari, A.N. Siddiquee, Optimisation of friction stir processing parameters to fabricate AA6063/SiC surface composites using Taguchi technique, IJMPT 58, 1, 16-31 (2019).
- 16. G. Samtaş, S. Korucu, Temperlenmiş Alüminyum 5754 alaşımının frezelenmesinde kesme parametrelerinin Taguchi Metodu kullanılarak optimizasyonu, Düzce Üniversitesi Bilim ve Teknoloji Dergisi. 7, 45-60 (2019). https://doi.org/10.29130/dubited.423795
- 17. M. Uysal, V. Akyuncu, H. Tanyildizi, M. Sumer, H. Yildirim, Optimization of durability properties of concrete containing fly ash using Taguchi’s approach and Anova analysis. J. Constr. 17 (3), 364-382 (2019). https://doi.org/10.7764/RDLC.17.3.364
- 18. U. Mohd, G. Pandulu, R. Jayaseelan, Strength evaluation of eco-friendly concrete using Taguchi method. Mater. Today Proc. 22 (3), 937-947 (2020). https://doi.org/10.1016/j.matpr.2019.11.136
- 19. T. Saaty, The Analytic Hierarchy Process, McGraw-Hill, New York, 1980.
- 20. K.R.E., Huizingh, H.C.J. Vrolijk, Decision Support for Information Systems Management: Applying Analytic Hierarchy Process, Research Report 95B26, University of Groningen, Research Institute SOM (Systems, Organizations and Management) (1994).
- 21. TS EN 1015-11, Methods of test for mortar for masonry - Part 11: Determination of flexural and compressive strength of hardened mortar, Turkish Standardization Institute Ankara (in Turkish), 2013.
- 22. TS EN 1015-12, Methods of test for mortar for masonry - Part 12: Determination of adhesive strength of hardened rendering and plastering mortars on substrates, Turkish Standardization Institute Ankara (in Turkish), 2016.
- 23. TS EN 1015-18, Methods of test for mortar for masonry - Part 18: Determination of water absorption coefficient due to capillary action of hardened mortar, Turkish Standardization Institute Ankara (in Turkish), 2004.
- 24. TS EN 1015-2, Methods of test for mortar for masonry - Part 2: Bulk sampling of mortars and preparation of test mortar, Turkish Standardization Institute Ankara (in Turkish), 2000.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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