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Characterization of perlite powders from Izmir, Türkiye region

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Perlite is an amorphous volcanic glass-type rock which is collected in open mines in various parts of the world. In this study, eight different perlite samples, supplied from the mines located in the Bergama, Izmir region, were used. The perlite samples were structurally, morphologically, and mineralogically characterized via a wide range of analytical techniques such as Thermogravimetric Analysis (TGA), Fourier Transform Infrared Spectroscopy (FTIR), Brunauer-Emmett-Teller (BET) Surface Area Analysis, Optical Microscopy, Scanning Electron Microscopy (SEM), X-ray Diffraction (XRD), X-ray Fluorescence (XRF), and a liquid pycnometer. Platelet shaped-like structures were observed in the SEM analysis of the expanded perlites in contrast to the images of spongy or cracked expanded perlites reported in literature. The O-H bending and Si-O-Si vibrations (both asymmetric and symmetric stretching) of perlite structures were confirmed by FTIR. Highly amorphous phases with a rather low percentage of crystalline phases were observed by XRD. In the BET surface area analysis, expanded perlite materials exhibited higher surface area compared to unexpanded ones. A detailed characterization of perlite structures is essential as there is a significant potential to use these minerals in various biocomposite applications and it is useful to explain structure-property relationships in this class of materials.
Rocznik
Strony
art. no. 155277
Opis fizyczny
Bibliogr. 33 poz., rys., wykr.
Twórcy
autor
  • Biocomposites Engineering Graduate Program, Graduate School of Natural and Applied Sciences, Izmir Katip Çelebi University, 35620, Çiğli, Izmir, Türkiye
  • Advanced Structures and Composites Center, University of Maine, 04469 Orono, ME, USA
  • Department of Petroleum and Natural Gas Engineering, Izmir Katip Çelebi University, 35620 Çiğli, Izmir, Türkiye
autor
  • Department of Materials Science and Engineering, Gebze Technical University, 41400 Gebze, Kocaeli, Türkiye
  • Department of Materials Science and Engineering, Izmir Katip Çelebi University, 35620 Çiğli, Izmir, Türkiye
  • Materials Science and Engineering Graduate Program, Graduate School of Natural and Applied Sciences, Izmir Katip Çelebi University, 35620 Çiğli, Izmir, Türkiye
  • Advanced Structures and Composites Center, University of Maine, 04469 Orono, ME, USA
  • Department of Materials Science and Engineering, Izmir Katip Çelebi University, 35620 Çiğli, Izmir, Türkiye
Bibliografia
  • ADI DARMAWAN, DIDIT, WAHYUDI, AGUS, ERIC MAMBY, HASUDUNGAN, SUHERMAN, IJANG, 2021. Characterization of perlite and expanded perlite from West Sumatera, Indonesia, IOP Conference Series: Earth and Environmental Science, 882(1), 012010.
  • AKSOY, ÖZAY, MOCAN, MERVE, YÜCETÜRK, MERT, ALYAMAÇ, ELIF, AYDIN, LEVENT, GÜRSOY, BAHADIR, SEYDIBEYOĞLU, M. ÖZGÜR, 2021. Manufacturing and Characterization of Perlite Biocomposites, International Pumice and Perlite Symposium, Pupes 21., e-ISBN:978-605-71070-0-8, 38-42.
  • ANGELOPOULOS, PANAGIOTIS M., GEROGIORGIS, DIMITRIOS I., PASPALIARIS, IOANNIS, 2013. Model-based sensitivity analysis and experimental investigation of perlite grain expansion in a vertical electrical furnace, Industrial and Engineering Chemistry Research, 52(50), 17953–17975.
  • ANGELOPOULOS, PANAGIOTIS M., GEROGIORGIS, DIMITRIOS I., PASPALIARIS, IOANNIS, 2014. Mathematical modeling and process simulation of perlite grain expansion in a vertical electrical furnace, Applied Mathematical Modelling, 38(5–6), 1799–1822.
  • BARKER, J.M. SANTINI, K., 2006. ‘PERLITE’, IN J.E. KOGEL, N.C. TRIVEDI, J.M. BARKER, S.T.K., ed.. Industrial Minerals and Rocks - Commodities, Markets, and Uses. Society for Mining, Metallurgy, and Exploration, SME., 685–702.
  • BASTANI, D., SAFEKORDI, A. A., ALIHOSSEINI, A., TAGHIKHANI, V., 2006. Study of oil sorption by expanded perlite at 298.15 K, Separation and Purification Technology, 52(2), 295–300.
  • BIAN, YADONG, WANG, KEJIAN, WANG, JULIAN, YU, YONGSHENG, LIU, MINGYUE, LV, YAJUN, 2021. Preparation and properties of capric acid: Stearic acid/hydrophobic expanded perlite-aerogel composite phase change, Renewable Energy, 179, 1027–1035.
  • BILGIÇ, CEYDA, BILGIÇ, ŞAFAK, 2019. Application of Fourier Transform Infrared, FTIR. Spectroscopy to Analysis of Clays, Nevşehir Bilim ve Teknoloji Dergisi, 8(20 19), 37–46.
  • BÜLBÜL, KADIR, 2022., http://www.kaleperlit.com.tr/(Accessed: 3 Jan 2022.
  • CABUK, MEHMET, YESIL, TOLGA ACAR, YAVUZ, MUSTAFA, UNAL, HALIL IBRAHIM, 2018. Colloidal and viscoelastic properties of expanded perlite dispersions, Journal of Intelligent Material Systems and Structures, 29(1., 32–40.
  • CHEN, FEIXU, ZHANG, YIHE, LIU, JINGANG, WANG, XINKE, CHU, PAUL K., CHU, BOHUA, ZHANG, NA, 2020. Fly ash based lightweight wall materials incorporating expanded perlite/SiO2 aerogel composite: Towards low thermal conductivity, Construction and Building Materials, 249, 118728.
  • EDEBALI, SERPIL, 2015. Alternative Composite Nanosorbents Based on Turkish Perlite for the Removal of Cr(VI. From Aqueous Solution, Journal of Nanomaterials, 2015, 18–20.
  • ERDEM, T. K., MERAL, Ç, TOKYAY, M., ERDOǦAN, T. Y., 2007. Use of perlite as a pozzolanic addition in producing blended cements, Cement and Concrete Composites, 29(1), 13–21.
  • GÜL, DILEK, 2016. Characterization and Expansion Behaviour of Perlite, (July), 1–94.
  • HAERY, HALEH ALLAMEH, 2017. Elastic And Mechanical Properties Of Expanded Perlite And Perlite/Epoxy Foams.
  • ILAHI, WAN FAZILAH FAZLIL, AHMAD, DESA, 2017. A study on the physical and hydraulic characteristics of cocopeat perlite mixture as a growing media in containerized plant production, Sains Malaysiana, 46(6), 975–980.
  • JAMEI, M., GUIRAS, H., CHTOUROU, Y., KALLEL, A., ROMERO, E., GEORGOPOULOS, I., 2011. ‘Water retention properties of perlite as a material with crushable soft particles’, Engineering Geology, 122(3–4), 261–271.
  • KABRA, SAKSHI, KATARA, STUTI, RANI, ASHU, 2013. Characterization and Study of Turkish Perlite, International Journal of Innovative Research in Science, Engineering and Technology, 2(9), 4319–4326.
  • KAUFHOLD, STEPHAN, REESE, ANKE, SCHWIEBACHER, WERNER, DOHRMANN, REINER, GRATHOFF, GEORG H., WARR, LAURENCE N., HALISCH, MATTHIAS, MÜLLER, CORNELIA, SCHWARZ- SCHAMPERA, ULRICH, UFER, KRISTIAN, 2014. Porosity and distribution of water in perlite from the island of Milos, Greece, Journal of the Korean Physical Society, 3(1), 1–10.
  • MAXIM, L. DANIEL, NIEBO, RON, MCCONNELL, ERNEST E., 2014. Perlite toxicology and epidemiology - A review, Inhalation Toxicology. Informa Healthcare, 259–270.
  • NASROLLAHZADEH, MAHMOUD, SAJADI, S. MOHAMMAD, ROSTAMI-VARTOONI, AKBAR, BAGHERZADEH, MOJTABA, SAFARI, REZA, 2015. Immobilization of copper nanoparticles on perlite: Green synthesis, characterization and catalytic activity on aqueous reduction of 4-nitrophenol, Journal of Molecular Catalysis A: Chemical, 400, 22–30.
  • PALOMAR, I., BARLUENGA, G., 2018. A multiscale model for pervious lime-cement mortar with perlite and cellulose fibers, Construction and Building Materials, 160, 136–144.
  • PAPADOPOULOS, ATHANASIOS P., BAR-TAL, ASHER, SILBER, AVNER, SAHA, UTTAM K., RAVIV, MICHAEL, 2008. Inorganic and synthetic organic components of soilless culture and potting mixes, Soilless Culture: Theory and Practice.
  • PAVLÍK, VLADIMÍR, BISAHA, JURAJ, 2018. Lightweight mortars based on expanded perlite, Key Engineering Materials, 776 KEM, 104–117.
  • REKA, ARIANIT A., PAVLOVSKI, BLAGOJ, LISICHKOV, KIRIL, JASHARI, AHMED, BOEV, BLAZO, BOEV, IVAN, LAZAROVA, MAJA, ESKIZEYBEK, VOLKAN, ORAL, AYHAN, JOVANOVSKI, GLIGOR, MAKRESKI, PETRE, 2019. Chemical, mineralogical and structural features of native and expanded perlite from Macedonia, Geologia Croatica, 72(3), 215–221.
  • ROSTAMI-VARTOONI, AKBAR, NASROLLAHZADEH, MAHMOUD, ALIZADEH, MOHAMMAD, 2016. Green synthesis of perlite supported silver nanoparticles using Hamamelis virginiana leaf extract and investigation of its catalytic activity for the reduction of 4-nitrophenol and Congo red, Journal of Alloys and Compounds, 680, 309–314.
  • ROULIA, M., CHASSAPIS, K., KAPOUTSIS, J. A., KAMITSOS, E. I., SAVVIDIS, T., 2006. Influence of thermal treatment on the water release and the glassy structure of perlite, Journal of Materials Science, 41(18), 5870–5881.
  • SAUFI, HAMID, EL ALOUANI, MAROUANE, ALEHYEN, SALIHA, EL ACHOURI, MOHAMMED, ARIDE, JILALI, TAIBI, M’HAMED, 2020. Photocatalytic Degradation of Methylene Blue from Aqueous Medium onto Perlite-Based Geopolymer, International Journal of Chemical Engineering, 2020.
  • SRIVASTAVA, KHUSHBOO, SHRINGI, NIHARIKA, DEVRA, VIJAY, RANI, ASHU, 2013. Pure Silica Extraction from Perlite: Its Characterization and Affecting factors, International Journal of Innovative Research in Science, Engineering and Technology, 2(July)
  • TORAB-MOSTAEDI, M., GHASSABZADEH, H., GHANNADI-MARAGHEH, M., AHMADI, S. J. AND TAHERI, H., 2010. Removal of cadmium and nickel from aqueous solution using expanded perlite, Brazilian Journal of Chemical Engineering, 27(2), 299–308.
  • WANG, XUEJIANG, WANG, XIN, WANG, WEI, ZHANG, JING, ZHAO, JIANFU, GU, ZAOLI AND ZHOU, LIJIE, 2015. Synthesis, structural characterization and evaluation of floating B-N codoped TiO 2 /expanded perlite composites with enhanced visible light photoactivity, Applied Surface Science, 349, 264–271.
  • XU, HAIYAN, JIA, WEIHONG, REN, SILI, WANG, JINQING, 2018. Novel and recyclable demulsifier of expanded perlite grafted by magnetic nanoparticles for oil separation from emulsified oil wastewaters, Chemical Engineering Journal, 337(December 2017), 10–18.
  • YILMAZER, SEMIHA, OZDENIZ, MESUT B., 2005. The effect of moisture content on sound absorption of expanded perlite plates, Building and Environment, 40(3), 311–318.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cbc7c6e2-df28-4d8e-8013-9472ed4f1a57
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