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The multidimensional response function exemplified by epoxy mortars: Looking for the global extreme

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Work connected with the obtaining and investigating of the properties of epoxy mortars usually generates high cost. It also takes lots of time and effort. A partial elimination of those drawbacks is possible when the statistical methods of designing the experiment are applied. The article presents partial results of the research into epoxy mortars modified with poly(ethylene terephthalate) glycolysates. The designing of an experiment connected with obtaining and investigating the properties of such mortars as well as the money-saving effect of the application of statistical methods in the production of the above mortars were discussed. The result of the research carried out was the determination of the optimum composition of the designed epoxy mortars. All its parameters describing the output quantities (the properties of the mortars) were obtained as the result of the optimization of the multicriterion decision-making process.
Rocznik
Strony
466--475
Opis fizyczny
Bibliogr. 34 poz., tab., wykr.
Twórcy
autor
  • Rzeszow University of Technology, Department of Building Engineering, ul. Poznańska 2, 35-959 Rzeszów, Poland
autor
  • Rzeszow University of Technology, Department of Building Engineering, ul. Poznańska 2, 35-959 Rzeszów, Poland
Bibliografia
  • [1] L. Czarnecki, Polymer concretes, Cement Wapno Beton R15 (2) (2010) 63–85.
  • [2] L. Czarnecki, P. Łukowski, Polymer-cement concretes, Cement Wapno Beton R15 (5) (2010) 243–258.
  • [3] A. Palos, N.A. D'Souza, C.T. Snively, R.F. Reidy III, Modification of cement mortar with recycled ABS, Cement and Concrete Research 31 (2001) 1003–1007.
  • [4] P. Mounanga, W. Gbongbon, P. Poullain, P. Turcry, Proportioning and characterization of lightweight concrete mixtures made with rigid polyurethane foam wastes, Cement and Concrete Composites 30 (2008) 806–814.
  • [5] R.M.N. De Assuncao, B. Royer, J.S. Oliveira, G.R. Filho, L.A. De Castro Motta, Synthesis, characterization and application of the sodium poly(styrenesulfonate) produced from waste polystyrene cups as an admixture in concrete, Journal of Applied Polymer Science 96 (2005) 1534–1538.
  • [6] E. Kołtuńczyk, G. Nowicka, Effect of poly (sodium-4- styrenesulphonate) additives on properties of cement suspensions, in: K.A. Wilk (Ed.), Proceedings of International Scientific Conference Surfactants and Dispersed Systems in Theory and Practice, PALMA Press, Wrocław, 2007, pp. 533– 536.
  • [7] N.W. Choi, Y. Ohama, Development and testing of polystyrene mortars using waste EPS solution-based binders, Constructions and Building Materials 18 (2004) 235–241.
  • [8] M. Amianti, V.R. Botaro, Recycling of EPS: a new methodology for production of concrete impregnated with polystyrene (CIP), Cement and Concrete Composites 30 (2008) 806–814.
  • [9] H. Schmidt, M. Cieślak, Concrete with carpet recyclates: suitability assessment by surface energy evaluation, Waste Management 28 (2008) 1182–1187.
  • [10] D.W. Fowler, D. Sander, R.L. Carrasquillo, The behavior of Portland cement concrete with the incorporation of waste plastic fillers, Disposal and Recycling of Organic and Polymeric Construction Materials 1 (1995) 61–74.
  • [11] M.C. Bignozzi, A. Saccani, F. Sandrolini, New polymer mortars containing polymeric wastes. Part 1. Microstructure and mechanical properties, Composites Part A 31 (2000) 97–106.
  • [12] M.C. Bignozzi, A. Saccani, F. Sandrolini, New polymer mortars containing polymeric wastes. Part 2. Dynamic mechanical and dielectric behaviour, Composites Part A 33 (2002) 205– 211.
  • [13] P. Panyakapo, M. Panyakapo, Reuse of thermosetting plastic waste for lightweight concrete, Waste Management 28 (2008) 1581–1588.
  • [14] H.S. Dweik, M.M. Ziara, M.S. Hadidoun, Enhancing concrete strength and thermal insulation using thermoset plastic waste, International Journal of Polymeric Materials 57 (2008) 635–665.
  • [15] D. Żuchowska, Polimery konstrukcyjne, WNT, Warszawa, 2000 (in Polish).
  • [16] E. Kociołek-Balawejder, PET, czyli poli (tereftalan etylenu) – produkcja, zastosowanie, recykling, http://www.wiedzainfo. pl/wyklady/124/pet_czyli_poli_tereftalan_etylenu_produkcja_ zastosowanie_recykling.html (access 18.02.13) (in Polish).
  • [17] K.S. Rebeiz, Precast use of polymer concrete using unsaturated polyester resin based on recycled PET waste, Construction and Building Materials 10 (1996) 215–220.
  • [18] F. Mahdi, A.A. Khan, H. Abbas, Physiochemical properties of polymer mortar composites using resins derived from post-consumer PET bottles, Cement and Concrete Composites 29 (2007) 241–248.
  • [19] C. Ignacio, V. Ferraz, R.L. Orefice, Study of the behavior of polyester concretes containing ionomers as curing agents, Journal of Applied Polymer Science 108 (2008) 2682–2690.
  • [20] A.A. Abdel-Azim, Unsaturated polyester resins from poly (ethylene terephthalate) waste for polymer concrete, Polymer Engineering and Science 36 (1996) 2973–2977.
  • [21] M.E. Tawfik, S.B. Eskander, Polymer concrete from marble wastes and recycled poly(ethylene terephthalate), Journal of Elastomers and Plastics 38 (2006) 65–79.
  • [22] B.W. Jo, S.K. Park, J.Ch. Park, Mechanical properties of polymer concrete made with recycled PET and recycled concrete aggregates, Construction and Building Materials 22 (2008) 2281–2291.
  • [23] P. Czub, Zastosowanie produktów glikolizy odpadowego poli (tereftalanu etylenu) do syntezy i modyfikacji żywic epoksydowych, in: XVII Konferencja Naukowa Wrocław- Kudawa, 23–26.09.2007, 2007, pp. 400–403 (in Polish).
  • [24] B.W. Jo, G.H. Tae, Ch.H. Kim, Uniaxial creep behavior and prediction of recycled-PET polymer concrete, Construction and Building Materials 21 (2007) 1552–1559.
  • [25] S.B. Eskander, T.A. Bayoumi, M.E. Tawfik, Immobilization of borate waste simulate in cement–water extended polyester composite based on poly(ethylene terphtalate) waste, Polymer- Plastics Technology and Engineering 45 (2006) 939–945.
  • [26] K.S. Rebeiz, D.W. Fowler, D.R. Paul, Recycling plastics in polymer concrete systems for engineering applications, Polymer-Plastics Technology and Engineering 30 (1991) 809–825.
  • [27] D.A. Silva, A.M. Betioli, P.J.P. Gleize, H.R. Roman, L.A. Gómez, J.L.D. Ribeiro, Degradation of recycled PET fibers in Portland cement-based materials, Cement and Concrete Research 35 (2005) 1741–1746.
  • [28] Y.W. Choi, D.J. Moon, J.S. Chung, S.K. Cho, Effects of waste PET bottles aggregate on the properties of concrete, Cement and Concrete Research 35 (2005) 776–781.
  • [29] A.S. Benosman, H. Taibi, M. Mouli, M. Belbachir, Y. Senhadji, Diffusion of chloride ions in polymer-mortar composites, Journal of Applied Polymer Science 110 (2008) 1600–1605.
  • [30] B. Dębska, A. Żmihorska-Gotfryd, Wpływ recyklatu PET na wybrane właściwości zapraw na podstawie żywic epoksydowych, Zeszyty Naukowe Politechniki Rzeszowskiej, Budownictwo i Inżynieria Środowiska, Oficyna Wydawnicza Politechniki Rzeszowskiej, Seria, 2008pp. 89–98 (in Polish).
  • [31] B. Dębska, A. Żmihorska-Gotfryd, Analiza porównawcza właściwości zapraw na podstawie nienasyconych żywic poliestrowych i epoksydowych modyfikowanych recyklatem PET, Zeszyty Naukowe Politechniki Rzeszowskiej, Budownictwo i Inżynieria Środowiska, Oficyna Wydawnicza Politechniki Rzeszowskiej, Seria, 2008pp. 79–88 (in Polish).
  • [32] Z. Polański, Planowanie doświadczeń w technice, PWN, Warszawa, 1984 (in Polish).
  • [33] J. Konkol, Planowanie i analiza wyników badań laboratoryjnych betonów o zróżnicowanej strukturze, w: Zastosowanie statystyki i data mining w badaniach naukowych, StatSoft, Kraków, 2007 (in Polish).
  • [34] Z. Polański, J. Pietraszek, Komputerowe wspomaganie planowania i analizy statystycznej doświadczalnych badań innowacyjnych, StatSoft, Rzeszów, 2007 (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d78287db-bafd-450d-a3ee-0b0a78d414ff
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