Novel nanofibers composite based clay : synthesis, characterization and intrinsic properties

• Autorzy: El Omari Youssef , Kbiri Zakaria , Tbib Bouazza , Abouharim Abdelhafid , El-Hami Khalil

Identyfikatory

DOI

10.37190/ppmp/161679

• Języki publikacji: EN

Abstrakty

EN

This work focuses on the study of red brick doped with reed fibers. These properties have been studied using characterizations techniques. In this context, we used Fourier transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM) and X-ray diffraction (XRD) analysis on the stability configuration, chemical structures and surface properties (morphology and porosity). The synthesis protocol is followed according to the manufacturing process of bricks on an industrial scale with well-defined standards and specifications. SEM and XRD experimental results showed that doping of clay fibers could effectively increase pore size and grain size as an indication of the removal of non-crystalline cellulosic materials from the fibers. The benefits of using fiber additives in clay bricks are then confirmed from a performance and environmental point of view.

Słowa kluczowe

EN

clay bricks; cellulosic fiber; composites; structural characterization; morphological characterization

• Wydawca: Oficyna Wydawnicza Politechniki Wrocławskiej
• Czasopismo: Physicochemical Problems of Mineral Processing
• Rocznik: 2023
• Tom: Vol. 59, iss. 1
• Strony: art. no. 161679
• Opis fizyczny: Bibliogr. 45 poz., rys., tab., wykr.

Twórcy

autor

El Omari Youssef

• Mohammed V University in Rabat, Scientific Institute, Av. Ibn Batouta BP 703, Agdal, Rabat, Morocco

autor

Kbiri Zakaria

• Mohammed V University in Rabat, Scientific Institute, Av. Ibn Batouta BP 703, Agdal, Rabat, Morocco

autor

Tbib Bouazza

• Mohammed V University in Rabat, Scientific Institute, Av. Ibn Batouta BP 703, Agdal, Rabat, Morocco

autor

Abouharim Abdelhafid

• Mohammed V University in Rabat, Scientific Institute, Av. Ibn Batouta BP 703, Agdal, Rabat, Morocco

autor

El-Hami Khalil

• Mohammed V University in Rabat, Scientific Institute, Av. Ibn Batouta BP 703, Agdal, Rabat, Morocco

Bibliografia

• ADEBAYO, M. A., ADEBOMI, J. I., ABE, T. O. & AREO, F. I (2020). Removal of aqueous Congo red and Malachite green using Ackee apple seed–Bentonite composite. Colloid Interface Sci. Commun. 38, 100311
• ADEBAYO, M. A., AKANDE S. O., OLORUNFEMI A. D., AJAYI O. O., OREGE J. I. AND DANIEL E. F., (2021). Equilibrium and thermodynamic characteristics of the corrosion inhibition of mild steel using sweet prayer leaf extract in alkaline medium. Prog. Chem. Biochem. Res. 4, 80–91
• ALTINTIG, E., YENIGUN M., SARI A., ALTUNDAG H., TUZEN M., SALEH T. A., (2020). Facile synthesis of zinc oxide nanoparticles loaded activated carbon as an eco-friendly adsorbent for ultra-removal of malachite green from water. Environ. Technol. Innov. 21, 101305
• ATIQAH,A.,JAWAID,AND AL (2018). Effect of alkali and silane treatments on mechanical and interfacial bonding strength of sugar palm fibers with thermoplastic polyurethane. J. Nat. Fibers 15(2), 251–261
• AZIZI SAMIR MAS, ALLOIN F, DUFRESNE A (2005). Review of recent research into cellulosic whiskers, their properties and their application in nanocomposite field. Biomacromolecules 6, 612-626.
• BASALEH, A. A., AL-MALACK, M. H. & SALEH, T. A (2019). Methylene blue removal using polyamide-vermiculite nanocomposites: Kinetics, equilibrium and thermodynamic study. J. Environ. Chem. Eng. 7, 103107
• BEZAZI,A., Boumediri,H., GarciadelPino, G.,Bezzazi, B., Scarpa, F., Reis, P.N., & Dufresne, A., (2020). Alkali treatment effect on phys- icochemical and tensile properties of date palm Rachis fibers. J. Nat. Fibers. 1–18
• BILGIÇ, C., BILGIC S. (2019). Application of Fourier Transform Infrared ( FTIR ) Spectroscopy to Analysis of Clays. Nevşehir Journal of Science and Technology, 8, 37-46.
• CHEN CADC (2003). Processing and Morphological Development of Montmorillonite Epoxy Nanocomposites. Nanotechnol 14, 643-648.
• CHEN CAN, JIA ZHIDONG, WANG XILIN, LU HAI, GUAN ZHICHEN, YANG CUIRU. (2015). Micro Characterization and Degradation Mechanism of Liquid Silicone Rubber Used for External Insulation. Dielectrics and Electrical Insulation, IEEE Transactions on. 22. 313-321.
• CHENG D1, XIA H, CHAN HS (2005). Synthesis and characterization of surfacefunctionalized conducting polyaniline-chitosan nanocomposite. J Nanosci Nanotechnol 5: 466-473. [Crossref]
• CHOI HJ, KIM SG, HYUN YH, JHON MS (2001). Preparation and rheological characteristics of solvent-cast poly (ethylene oxide)/montmorillonite nanocomposites. Macromol Rapid Commun 22, 320-325.
• CHOUBERT, G. & FAURE-MURET, A. & HILALI, E.A. & HOUZAY, J.P. & LAMOTTEFRIZON, D.. (1984). Carte géologique du Rif, échelle 1/50000, feuille Boudinar. Notes et Mémories du Service Géologique du Maroc.
• DRZYMALA, J., 2007. Mineral processing. Foundations of theory and practice of minerallurgy. Ofic. Wyd. PWr, Wroclaw, Poland.
• EL-HAMI K., (2022). Morphological Rearrangement of P(VDF-TrFE)/SWCNT Nano-composite Under High Electron Beam. Springer Nature Switzerland AG 2022, AI2SD 2020. AISC 1418, 661–664.
• GUILLEMIN, M. AND HOUZAY, J.P. (1982). Le Néogène post-nappe et le Quaternaire du Rif nord-oriental. Stratigraphie et tectonique des bassins de Melilla, du Kert, de Boudinar et du piedmont des Kebdana. Notes et Mémoires du Service géologique du Maroc, 314, 7-239.
• HARTMAN J., ALBERTSSON A. C., SODERQVIST L. M., SJOBERG J., (2006). Oxygen barrier materials from renewable sources: material properties of softwood hemicellulose-based films. Journal of applied polymer science. Vol. 100(4), 2985-2991.
• IOELOVICH M (2008). Cellulose as a nanostructured polymer: a short review. BioResources 3, 1403-18.
• JABALOY, ANTONIO & AZDIMOUSA, ALI & BOOTH-REA, GUILLERMO & ASEBRIY, LAHCEN & VÁZQUEZ, MERCEDES & MARTÍNEZ-MARTÍNEZ, JOSÉ & GABITES, JANET. (2015). The structure of the Temsamane fold-and-thrust stack (eastern Rif, Morocco): Evolution of a transpressional orogenic wedge. Tectonophysics. 663. 10.1016/j.tecto.2015.02.003.
• JENSEN J. L., CHRISTENSEN B. L., SCHJONNING P., WATTS C. W. AND MUNKHOLM L. J., (2018). Converting loss-on-ignition to organic carbon content in arable topsoil: pitfalls and proposed procedure. Journal of soil science, 69(4), 604-612.
• Kbiri Z., El Ouai D., Tbib B., and El-Hami K., (2022). Advanced Characterizations of Moroccan Clay Related to the Local Geology. Springer Nature Switzerland, AG 2022, AI2SD 2020, AISC 1417, 796–800.
• KBIRI Z., TBIB B., EL-HAMI K. Influence of temperature in Properties of Clay for two zones in Morocco BeniYakhlef and Ben Slimane. Springer Nature Switzerland AG 2020, AISC 1103, 193–198.
• LI P, PING ZHENG J, LU MA Y, DE YAO K (2003). Gelatin/montmorillonite hybrid nanocomposite. II. Swelling behavior. J Appl Polym Sci 88, 322-326.
• LU H, HU Y, YANG L, WANG Z, CHEN Z, ET AL. (2005). Preparation and thermal characteristics of silane-grafted polyethylene/montmorillonite nanocomposites. J Mater Sci 40, 43-46.
• MAITI PB, CA GIANNELIS , E.P. (2003). Renewable plastics: synthesis and properties of PHB nanocomposites. Polym Mater Sci Eng 88, 58-59.
• MCCORMICK C (2010). Nanocellulose steps up on stage. Pulp Paper-Canada 111, 15-16.
• MESSERSMITH PBAEPG (1994). Synthesis and characterization of layered silicate-epoxy nanocomposites. Chem Mater 6: 1719-1725.
• MINHAJUL I. MD., NURUZZAMAN KHAN M., BISWAS S., CHOUDHURY T. R., HAQUE P., RASHID T. U., MIZANUR R. M., (2017). Preparation and characterization of bijoypur clay-crystalline cellulose composite for application as an adsorbent. Adv Mater Sci, Volume 2(3), 1-7
• MUTUTUVARI TM, TRAN CD (2014). Synergistic adsorption of heavy metal ions and organic pollutants by supramolecular polysaccharide composite materials from cellulose, chitosan and crown ether. J Hazard Mater 264, 449-459. [Crossref]
• NGAH WW, HANAFIAH MAKM (2008). Removal of heavy metal ions from wastewater by chemically modified plant wastes as adsorbents: a review. Bioresour Technol 99, 3935-3948.
• OKAMOTO M, MORITA S, KIM Y, KOTAKA T, TATEYAMA H (2001). Dispersed structure change of smectic clay/poly (methyl methacrylate) nanocomposites by copolymerization with polar comonomers. Polym 42, 1201-1206.
• OLUSEGUN, S. J. &MOHALLEM, N. D. S (2020). Comparative adsorption mechanism of doxycycline and Congo red using synthesised kaolinite supported CoFe2O4 nanoparticles. Environ. Poll. 260, 114019
• OUSHABI, A., OUDRHIRI HASSANI F., ABBOUD Y., SAIR S., TANANE O. AND EL BOUARI A., (2018). Improvement of the interface bonding between date palm fibers and polymeric matrices using alkali-silane treatments. Int. J. Ind. Chem. 9(4), 335–343
• PARK H-M, LIANG X, MOHANTY AK, MISRA M, DRZAL LT (2004). Effect of Compatibilizer on Nanostructure of the Biodegradable Cellulose Acetate/Organoclay Nanocomposites. Macromolecules 37, 9076-9082.
• PARK H-M, MOHANTY A. K., DRZAL L. T., LEE E., MIELEWSKI D. F., MISRA M., (2006). Effect of Sequential Mixing and Compounding Conditions on Cellulose Acetate/Layered Silicate Nanocomposites. Journal of Polymers and the Environment 14, 27-35.
• PARK JH, JANA SC (2003). Mechanism of exfoliation of nanoclay particles in epoxy-clay nanocomposites. Macromolecules 36, 2758-2768.
• PERERA, H. J., GOYAL, A., & ALHASSAN, S. M (2022). Morphological, structural and thermal properties of silane-treated date palm fibers. J. Nat. Fibers 1–11
• RAY SS, BOUSMINA M (2005). Biodegradable polymers and their layered silicate nanocomposites: in greening the 21st century materials world. Progress in Materials Science 50, 962-1079.
• RAY SS, YAMADA K, OKAMOTO M, UEDA K (2003). Control of biodegradability of polylactide via nanocomposite technology. Macromol Mater Eng 288, 203-208.
• REIS, G. S., ADEBAYO, MATTHEW A., SAMPAIO, CARLOS H., EDER C., PASCAL S., IRINEU A. S., SILVIO L. P., & FLAVIO A., (2017). Removal of phenolic compounds using sludge-based activated carbons prepared by conventional and microwave-assisted pyrolysis. Water Air Soil Poll. 228(33), 1–17
• SATHISH, S., KARTHI N., PRABHU L., GOKULKUMAR S., BALAJI D., VIGNESHKUMAR N., AJEEM FARHAN T.S., AKILKUMAR A., DINESH V.P., (2021). A review of natural fiber composites: Extraction methods, chemical treatments and applications. Mater. Today Proc. 45, 8017–8023
• Smilja Markovic, Vera Dondur, Radovan Dimitrijevic (2003). FTIR spectroscopy of framework aluminosilicate structures: carnegieite and pure sodium nepheline. , 654(1-3), 223–234.
• THIRUMAVALAVAN M, LAI Y-L, LIN L-C, LEE J-F (2009). Cellulose-based native and surface modified fruit peels for the adsorption of heavy metal ions from aqueous solution: Langmuir adsorption isotherms. J Chem Eng Data 55, 1186-1192.
• WANG X, DU Y, LUO J, LIN B, KENNEDY JF (2007). Chitosan/organic rectorite nanocomposite films: Structure, characteristic and drug delivery behaviour. Carbohydr Polym 69, 41-49.
• ZHUANG H, ZHENG JP, GAO H, DE YAO K (2007). In vitro biodegradation and biocompatibility of gelatin/montmorillonite-chitosan intercalated nanocomposite. J Mater Sci Mater Med 18, 951-957.