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Production of cement composites using alumina-lignin hybrid materials admixture

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the framework of this study, Al2O3-lignin hybrid materials differing in terms of the weight ratio of the inorganic and organic components were designed and obtained. The method of mechanical grinding of ingredients with simultaneous mixing using a mortar grinder and a high-performance ball mill was used in order to obtain the above-mentioned systems. The effectiveness of obtaining alumina- lignin materials was confirmed using Fourier transform infrared spectroscopy (FTIR) and, indirectly, by the colorimetric analysis. FTIR analysis allowed to confirm that hydrogen bonds formed between the components and classify the resulting systems as Ist class hybrid materials. In the course of the conducted research, the relatively high thermal stability of the hybrid materials was also confirmed and the dispersion and morphological character (SEM) of the obtained systems was determined. Favourable physicochemical and microstructural evaluation allowed to qualify the alumina-lignin hybrid systems as functional admixtures for cement mortars. As part of the tests, it was confirmed that the presence of lignin in the cement composites contributes to the increase of the plasticity of the mixture. In turn, the inorganic component allowed to preserve (and, in case of selected systems, improve) the mechanical properties of the final composites. The most favourable results of application tests were obtained for alumina-lignin hybrid systems with a weight ratios equal to 5:1 and 2:1. The analysis of these systems indicated that there is a clear improvement of mechanical properties, whit a simultaneous enhancement of the plasticity of the mixture in comparison to the reference sample.
Słowa kluczowe
Rocznik
Strony
1401--1412
Opis fizyczny
Bibliogr. 26 poz., rys., tab., wykr., wz.
Twórcy
  • Poznan University of Technology, Faculty of Civil and Environmental Engineering, Institute of Structural Engineering, Piotrowo 5, PL-60965 Poznan, Poland
  • Poznan University of Technology, Faculty of Civil and Environmental Engineering, Institute of Structural Engineering, Piotrowo 5, PL-60965 Poznan, Poland
  • Poznan Universityof Technology, Faculty of Chemical Technology, Institute of Chemical Technology and Engineering, Berdychowo 4, PL-60965 Poznan, Poland
  • Poznan Universityof Technology, Faculty of Chemical Technology, Institute of Chemical Technology and Engineering, Berdychowo 4, PL-60965 Poznan, Poland
Bibliografia
  • AREL, H. S., 2017. The effect of lignosulfonates on concretes produced with cements of variable fineness and calcium aluminate content. Constr. Build. Mater. 131, 347-360.
  • BULA, K., KLAPISZEWSKI, Ł., JESIONOWSKI, T., 2015. A novel functional silica/lignin hybrid material as a potential bio-based polypropylene filler. Polym. Compos. 36, 913-922.
  • GOLISZEK, M., PODKOŚCIELNA, B., FILA, K., RIAZANOVA, A. V., AMINZADEH, S., SEVASTYANOVA, O., GUN’KO, V. M., 2018. Synthesis and structure characterization of polymeric nanoporous microspheres with lignin. Cellulose 25, 5843-5862.
  • GOLISZEK, M., PODKOŚCIELNA, B., SEVASTYANOVA, O., FILA, K., CHABROS, A., PĄCZKOWSKI, P., 2019. Investigation of accelerated aging of lignin-containing polymer materials. Int. J. Biol. Macromol. 123, 910-922.
  • GUPTA, C., NADELMAN, E., WASHBURN, N. R., KURTIS, K. E., 2017. Lignopolymer superplasticizer for low-CO2cements. ACS Sustain. Chem. Eng. 5, 4041-4049.
  • HUANG, C., MA, J., ZHANG, W., HUANG, G., YONG, Q., 2018. Preparation of lignosulfonates from biorefinery lignins by sulfomethylation and their application as a water reducer for concrete. Polymers 10, 841-853.
  • KALLIOLA, A., VEHMAS, T., LIITIA, T., TAMMINEN, T., 2015. Alkali-O2 oxidized lignin –a bio-based concrete plasticizer. Ind. Crops Prod. 74, 150-157.
  • KICKELBICK, G., 2014. Hybrid materials –past, present and future. Hybrid Mater. 1, 39-51.
  • KLAPISZEWSKI, Ł., NOWACKA, M., MILCZAREK, G., JESIONOWSKI T., 2013. Physicochemical and electrokinetic properties of silica/lignin biocomposites. Carbohydr. Polym. 94, 345-355.
  • KLAPISZEWSKI, Ł., BARTCZAK, P., WYSOKOWSKI, M., JANKOWSKA, M., KABAT, K., JESIONOWSKI, T., 2015. Silica conjugated with kraft lignin and its use as a novel ‘green’ sorbent for hazardous metal ions removal. Chem. Eng. J. 260, 684-693.
  • KLAPISZEWSKI, Ł., SIWIŃSKA-STEFAŃSKA, K., KOŁODYŃSKA, D., 2017a. Preparation and characterization of novel TiO2/lignin and TiO2-SiO2/lignin hybrids and their use as functional biosorbents for Pb(II). Chem. Eng. J. 314, 169-181.
  • KLAPISZEWSKI, Ł., JAMROZIK, A., STRZEMIECKA, B., KOLTSOV, I., BOREK, B., MATYKIEWICZ, D., VOELKEL, A., JESIONOWSKI, T., 2017b. Characteristics of multifunctional, eco-friendly lignin-Al2O3hybrid fillers and their influence on the properties of composites for the abrasive tools. Molecules 22, 1920-1939.
  • KLAPISZEWSKI, Ł., JAMROZIK, A., STRZEMIECKA, B., JAKUBOWSKA, P., SZALATY, T.J., SZEWCZYŃSKA, M., VOELKEL, A., JESIONOWSKI, T., 2019. Kraft lignin/cubic boron nitride hybrid materials as functional components for abrasive tools. Int. J. Biol. Macromol. 122, 88-94.
  • KOSMATKA, S.H., KERKHOFF, B., PANARESE, W. C., 2003. Design and Controlof Concrete Mixtures EB001. 14th edition. Portland Cement Association, Skokie, Illinois, USA.
  • LI, C., JIANG, L., XU, N., JIANG, S., 2018. Pore structure and permeability of concrete with high volume of limestone powder addition. Powder Technol. 338, 416-424.
  • LIU, N., CHEN, B., 2016. Experimental research on magnesium phosphate cements containing alumina. Constr. Build. Mater.121, 354-360.
  • MENDES, T. M., HOTZA, D., REPETTE, W. L., 2015. Nanoparticles in cement based materials: A review. Rev. Adv. Mater. Sci. 40, 89-96.
  • NEVILLE, A. M., 2011. Properties of concrete. 5thedition, Pearson Education Limited, London.
  • NORHASRI, M.S.M., HAMIDAH, M.S., FADZIL, A.M., 2017. Applications of using nano material in concrete: A review. Constr. Build. Mater. 133, 91-97.
  • PODKOŚCIELNA, B., GOLISZEK, M., SEVASTYANOVA, O., 2017. New approach in the application of lignin for the synthesis of hybrid materials. Pure Appl. Chem. 89, 161-171.
  • SIDDIQUE, R., KHAN, M. I., 2011. Supplementary Cementing Materials. Springer-Verlag, Berlin, Heidelberg.
  • SOBIESIAK, M., PODKOŚCIELNA, B., SEVASTYANOWA, O., 2017. Thermal degradation behavior of lignin-modified porous styrene-divinylbenzene and styrene-bisphenol A glycerolate diacrylate copolymer microspheres. J. Anal. Appl. Pyrol. 123, 364-375.
  • ŚLOSARCZYK, A., KWIECIŃSKA, A., PEŁSZYK, E., 2017. Influence on selected metal oxides in micro and nanoscale on the mechanical and physical properties of the cement mortars.Procedia Eng. 172, 1031-1038.
  • THAKUR, V. K., THAKUR, M. K., RAGHAVAN, P., KESSLER,M. R., 2014. Progress in green polymer composites from lignin for multifunctional applications: A review. ACS Sustain.Chem. Eng. 2, 1072-1092.
  • WANG, D., SHI, C., FARZADNIA, N., SHI, Z., JIA, H., 2018. A review on effects of limestone powder on the properties of concrete. Constr. Build. Mater. 192, 153-166.
  • WYSOKOWSKI, M., KLAPISZEWSKI, Ł., MOSZYŃSKI, D., BARTCZAK, P., SZATKOWSKI, T., MAJCHRZAK, I., SIWIŃSKA-STEFAŃSKA, K., BAZHENOV, V. V., JESIONOWSKI, T., 2014. Modification of chitin with kraft lignin and development of new biosorbents for removal of cadmium(II) and nickel(II) ions. Mar. Drugs 12, 2245-2268.
Uwagi
1. This work was supported Ministry of Science and Higher Education Poland research project number 03/32/SBAD/0915
2. Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b5c0d86d-2ed9-42ec-9b30-a60dbb571121
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