Error message

  • Deprecated function: Unparenthesized `a ? b : c ? d : e` is deprecated. Use either `(a ? b : c) ? d : e` or `a ? b : (c ? d : e)` in include_once() (line 1439 of /home/science2016/public_html/includes/bootstrap.inc).
  • Deprecated function: Array and string offset access syntax with curly braces is deprecated in include_once() (line 3557 of /home/science2016/public_html/includes/bootstrap.inc).

Бамбуковмісні композити з екологічно чистими в'яжучими речовинами

Omar Mukbaniani1,2, Tamara Tatrishvili1,2, NikolozKvnikadze1,2, TinatiniBukia2,4, Nana Pirtskheliani2,3, Tamar Makharadze2,4, Gia Petriashvili4
Affiliation: 
1Ivane Javakhishvili’ Tbilisi State University, Department of Macromolecular Chemistry. I. 1Chavchavadze Ave. Tbilisi 0179, Georgia 2Institute of Macromolecular Chemistry and Polymeric Materials, Ivane Javakhishvili Tbilisi State University, I.Chavchavadze Ave, 13, Tbilisi 0179, Georgia 3Sokhumi State University, Faculty of Natural Sciences, Mathematics, Technologies, and Pharmacy.61 PolitkovskayaSt., Tbilisi 0186, Georgia 4 Vladimir Chavchanidze Institute of Cybernetics of the Georgian Technical University. 5Z.AndjzaparidzeSt., 0186, TbilisiGeorgia tamar.tatrishvili@tsu.ge
DOI: 
https://doi.org/10.23939/chcht17.04.807
AttachmentSize
PDF icon full_text.pdf1.23 MB

Keywords:

Abstract: 
Уперше синтезовано екологічно чисту в'яжучу речовину– полі[(триметокси)4-вінілфенетил)]силан за допомогою реакції алкілування Фріделя-Крафтса, яку проводили взаємодією полістирену з вінілтриметоксисиланом у присутності безводного AlCl3. Синтезований полімер було ідентифіковано за допомогою 1H, 13C, 1H COSY ЯМР іFTIR спектроскопії. Композити на основі бамбукової тирси з різними дисперсійними властивостями були створені з використанням синтетичного триметоксисилільованогополістирену(TMSPSt) та стирену з різним ступенем силілювання (5-10%). Композиційні матеріали на основі бамбукового порошку з різними органічними/неорганічними добавками, антипіренамий антиоксидантами були оброблені за різних температур і тисків методом гарячого пресування. Отримані композити досліджували методами інфрачервоної спектроскопії з перетворенням Фур'є(FTIR), оптичної та растрової електронної мікроскопії (SEM), а також енергодисперсійної рентгенівської спектроскопії (EDS). Термостабільність отриманих матеріалів визначали за допомогою термогравіметрії та методу Віка. Також досліджено водопоглинання та деякі механічні властивості.
References: 

[1] Sapuan, S.M.; Aulia, H.S.; Ilyas, R.A.; Atiqah, A.; Dele-Afolabi, T.T.; Nurazzi, M.N.; Supian, A.B.M.; Atikah, M.S.N. MechanicalProperties of Longitudinal Basalt/Woven-Glass-Fiber-reinforced Unsaturated Polyester-Resin Hybrid Composites. Polymers2020,12, 2211.https://doi.org/10.3390/polym12102211
[2] Zia, F.; Zia, K.M.; Zuber, M.; Kamal, S.; Aslam, N. Starch Based Polyurethanes: A Critical Review Updating Recent Literature.Carbohydr. Polym.2015, 134, 784–798. https://doi.org/10.1016/j.carbpol.2015.08.034
[3] Syafiq, R.; Sapuan, S.; Zuhri, M. Antimicrobial Activity, Physical, Mechanical and Barrier Properties of Sugar Palm-Based Nano Cellulose/Starch Biocomposite Films Incorporated with Cinnamon Essential Oil. J. Mater. Res. Technol. 2021, 11, 144–157.https://doi.org/10.1016/j.jmrt.2020.12.091
[4] Syafiq, R.; Sapuan, S.M.; Zuhri, M.Y.M.; Ilyas, R.A.; Nazrin, A.; Sherwani, S.F.K.; Khalina, A. Antimicrobial Activities of Starch-Based Biopolymers and Biocomposites Incorporated with Plant Essential Oils: A Review. Polymers2020, 12, 2403. https://doi.org/10.3390/polym12102403
[5]Radzi, A.M.; Sapuan, S.M.; Jawaid, M.; Mansor, M.R. Effect of Alkaline Treatment on Mechanical, Physical and Thermal Propertiesof Roselle/Sugar Palm Fiber Reinforced Thermoplastic Polyurethane Hybrid Composites. Fibers Polym. 2019, 20, 847–855.https://doi.org/10.1007/s12221-019-1061-8
[6]Nadlene, R.; Sapuan, S.M.; Jawaid, M.; Ishak, M.R.; Yusriah, L. A Review on Roselle Fiber and Its Composites. J. Nat. Fibers2016,13, 10–41. https://doi.org/10.1080/15440478.2014.984052
[7]Ishak, M.R.; Sapuan, S.M.; Leman, Z.; Rahman, M.Z.A.; Anwar, U.M.K.; Siregar, J.P. Sugar Palm (Arengapinnata): ItsFibres, Polymers and Composites. Carbohydr. Polym. 2013, 91, 699–710. https://doi.org/10.1016/j.carbpol.2012.07.073
[8]Suhot, M.; Hassan, M.; Aziz, S.; Daud, M.M. Recent Progress of Rice Husk Reinforced Polymer Composites: A Review. Polymers2021, 13, 2391. https://doi.org/10.3390/polym13152391
[9]Radzi, A.M.; Sapuan, S.M.; Jawaid, M.; Mansor, M.R. Mechanical Performance of Roselle/Sugar Palm Fiber Hybrid ReinforcedPolyurethane Composites.Bioresources2018, 13, 6238–6249. https://doi.org/10.15376/biores.13.3.6238-6249
[10] Ali, M.R.; Salit, M.S.; Jawaid, M.; Mansur, M.R.; Manap, M.F.A. Polyurethane-Based Biocomposites; Elsevier Inc.: Amsterdam,The Netherlands, 2017. https://doi.org/10.1016/B978-0-12-804065-2.00018-8
[11]Ilyas, R.A.; Sapuan, S.M.; Ibrahim, R.; Abral, H.; Ishak, M.; Zainudin, E.; Asrofi, M.; Atikah, M.S.N.; Huzaifah, M.R.M.; Radzi,A.M.; et al. Sugar Palm (Arengapinnata (Wurmb.) Merr) Cellulosic Fibre Hierarchy: A Comprehensive Approach from Macro to NanoScale. J. Mater. Res. Technol. 2019, 8, 2753–2766.https://doi.org/10.1016/j.jmrt.2019.04.011
[12] Kasim, F.A.M.; Roslan, S.A.H.; Rasid, Z.A.; Yakub, F.; Hassan, M.Z.; Yahaya, H. Post-Buckling of Bamboo Reinforced CompositePlates. IOP Conference Series: Materials Science and Engineering 2021, 1051, 012040. https://doi.org/10.1088/1757-899X/1051/1/012040
[13] Sari, N.H.; Pruncu, C.I.; Sapuan, S.M.; Ilyas, R.A.; Catur, A.D.; Suteja, S.; Sutaryono, Y.A.; Pullen, G. The Effect of Water Immersion and Fibre Content on Properties of Corn Husk Fibres Reinforced Thermoset Polyester Composite. Polym Test2020, 91, 106751.https://doi.org/10.1016/j.polymertesting.2020.106751
[14]Asyraf, M.R.M.; Ishak, M.R.; Sapuan, S.M.; Yidris, N.; Ilyas, R.A.; Rafidah, M.; Razman, M.R. Potential Application of GreenComposites for Cross Arm Component in Transmission Tower: A Brief Review. Int J PolymSci2020,2020, 8878300. https://doi.org/10.1155/2020/8878300
[15]Venkatesha, B.; Saravanan, R.; Bavan, D.S. Review on Mechanical Properties and Fatigue Life of E-Glass/Bamboo Fiber ReinforcedPolymer Composites.International Journal of Engineering Sciences & Management2017, 7, 52–57.
[16]Radzi A.M.; Zaki, S.A.; Hassan, M.Z.; Ilyas,R.A.; Jamaludin, K.R.; Md Daud, M.Y.; Aziz, S.A.Bamboo-Fiber-Reinforced Thermoset and Thermoplastic Polymer Composites: A Review of Properties, Fabrication, and Potential Applications. Polymers2022, 14, 1387.https://doi.org/10.3390/polym14071387
[17]Ramesh, M.; Palanikumar, K.; Reddy, K.H. Plant Fibre Based Bio-Composites: Sustainable and Renewable Green Materials.Renew. Sust. Energ. Rev.2017, 79, 558–584.https://doi.org/10.1016/j.rser.2017.05.094
[18]Martijanti, M.;Sutarno, S.;Juwono, A.L. Polymer Composite Fabrication Reinforced with Bamboo Fiberfor Particle Board Product Raw Material Application.Polymers2021, 13, 4377.https://doi.org/10.3390/polym13244377
[19] Bamboo Fiber Composites; Processing, Properties and Applications; Jawaid, M.;Rangappa, S.M.;Siengchin, S., Eds.; Springer Singapore,2021.
[20] Tomalang, F.N.; Lopez, A.R.;Semara, J.A.;Casin, R.F.;Espiloy, Z.B. Properties and Utilization of Philippine erect bamboo. In Bamboo research in Asia: proceedings of a workshop held in Singapore, 28-30 May 1980;IDRC, Ottawa, ON, CA,2008; pp266–275.http://hdl.handle.net/10625/16761
[21] Lykidis, C.;Grigoriou, A. Hydrothermal Recycling of Waste and Performance of the Recycled Wooden Particleboards.Waste Manage. 2008, 28, 57–63.https://doi.org/10.1016/j.wasman.2006.11.016
[22]Abdulkareem, S.A.;Adeniyi, A.G. Production of Particleboards Using Polystyrene and Bamboo Wastes. Niger. J. Technol. 2017,36,788–793. http://dx.doi.org/10.4314/njt.v36i3.18
[23]Ramesh, M.;RajeshKumar, L.;Bhuvaneshwari, V. Bamboo Fiber Reinforced Composites. In Bamboo Fiber Composites; Jawaid, M.;Rangappa, S.M.;Siengchin, S., Eds.; Springer Singapore, 2021; pp 1–13.
[24]. Mukbaniani, O.;Brostow, W.;HaggLobland, H.E.;Aneli, J.;Tatrishvili, T.;Markarashvili, E.;Dzidziguri, D.;Buzaladze, G.Composites Containing Bamboo with Different Binders.Pure Appl. Chem. 2018, 90, 1001–1009.https://doi.org/10.1515/pac-2017-0804
[25] Aneli, J.; Shamanauri, L.; Markarashvili, E.; Tatrishvili, T.; Mukbaniani, O. Polymer-Silicate Composites with Modified Minerals. Chem. Chem. Technol. 2017, 11, 201–209. https://doi.org/10.23939/chcht11.02.201
[26]Tolentino, M.S.;Carpena, J.F.; Javier, R.M.; Aquino, R.R. Thermal Treatment Temperature and Time Dependence of Contact Angle of Water on Fluorinated Polystyrene as Hydrophobic Film Coating. IOP Conf. Ser.: Mater. Sci. Eng.2017, 205,012024. https://doi.org/10.1088/1757-899X/205/1/012024
[27] Mukbaniani, O.;Tatrishvili,T.;Markarashvili,E.; Londaridze,L.; Pachulia, Z.;Pirtskheliani, N. Synthesis of Triethoxy(Vinylphenethyl)Silane With Alkylation Reaction ofVinyltriethoxysilane to Styrene. Oxid. Commun. 2022, 45, 309–320.
[28].Demchuk, Y.; Gunka, V.; Pyshyiv, S.;Sidun, Y.; Hrynchuk, Y.; Kucinska-Lipka, J.; Bratychak, M. Slurry Surfacing Mixed on the Basis of Bitumen Modified with Phenol-Cresol-Formaldehyde Resin.Chem. Chem. Technol. 2020, 14, 251–256.https://doi.org/10.23939/chcht14.02.251
[29] Bashta, B.;Astakhova, O.;Shyshchak, O.;Bratychak, M. Epoxy Resins Chemical Modification by Dibasic Acids. Chem. Chem. Technol. 2014, 8(3), 309–316.https://doi.org/10.23939/chcht08.03.309
[30] Liu, C.; Tanaka, Y.; Fujimoto Y. Viscosity Transient Phenomenon during Drop Impact Testing and Its Simple Dynamics Model. World J. Mech.2015,5,33-41. https://doi.org/10.4236/wjm.2015.53004
[31] Mukbaniani, O.;Brostow, W.;Aneli, J.;Londaridze, L.;Markarashvili, E.;Tatrishvili, T.;Gencel, O. Wood Sawdust Plus Silylated Styrene Composites with Low Water Absorption. Chem. Chem. Technol. 2022, 16, 377–386.https://doi.org/10.23939/chcht16.03.377
[32] Smith, B.C.Distinguishing Structural Isomers: Mono- and Disubstituted Benzene Rings. Spectroscopy2016, 31, 36-39.
[33] Swanson, N.Polybutadiene graft copolymers as coup¬ling agents in rubber compounding. Ph.D. Thesis, Graduate Faculty of the University of Akron, Akron, USA,2016.
[34]ChemBioDraw Ultra 12. https://en.freedownloadmanager.org/users-choice/Chemdraw_Ultra_12.0_Free...
[35] MestreNova. https://mestrelab.com/software/mnova/nmr/
[36]Kyle A. Baseden and Jesse W. Tye.Introduction to Density Functional Theory: Calculations by Hand on the Helium Atom.J. Chem. Educ. 2014, 12, 2116–2123.https://doi.org/10.1021/ed5004788
[37]Tatrishvili, T.; Koberidze, Kh.;Mukbaniani, O.Quantum-Chemical AM 1 Calculations for Hydride Addition Reaction of Methyldimethoxysilane to 1,3-Cyclohexadiene. Bull. Georgian National Acad. Sci.2007, 3, 297-300.
[38]Mukbaniani, O.; Tatrishvili, T.; Titvinidze, G. AM1 Calculations for Hydrosilylation Re¬a¬c¬tion ofMethyldimethoxysilane with Hexane-1. Bull. Georgian National Acad. Sci. 2006, 32, 109–114.
[39]. Tatrishvili, T.; Titvinidze, G.; Mukbaniani, O.AM1 Calculations for Hydride Addition Rea¬c¬¬tion of Methyldimethoxysilane with Styrene.Georgia Chemical Jo¬ur¬nal2006, 6, 58–59.
[40] Mukbaniani, O.; Pirtskheliani, N.; Tatrishvili, T.; Patstasia, S.Hydrosi¬ly¬la¬ti¬onReactions of α,ω-bis(Trimethylsiloxy)methylhydridesiloxane to Allyloxytriethoxysilane. Georgia Chemical Journal2006, 6, 254–255.
[41]Janssen, J.J.A. Building with bamboo (2nd ed.); Intermediate Technology Publication Limited, London,1995.
[42]Amada, S.; Ichikawa, Y.; Munekata, T.; Nagase, Y.; Shimizu, K.Fiber Texture and Mechanical Graded Structure of Bamboo. Compos. B. Eng.1997, 28, 13–20.https://doi.org/10.1016/S1359-8368(96)00020-0
[43] Mukbaniani, O.;Brostow, W.; Aneli, J.; Markarashvili, E. Tatrishvili, T.; Buzaladze, G.; Parulava, G. Sawdust Based Composites. Polym. Adv. Technol. 2020, 31, 2504–2511. https://doi.org/10.1002/pat.4965
[44] Chang, H.-T.; Yeh, T.-F.; Hsu, F.-L.; Kuo-Huang, L.-L.; Lee, C.-M.; Huang, Y.-S.; Chang, S.-T. Profiling the Chemical Composition and Growth Strain of Giant Bamboo, (Dendrocalamusgiganteus Munro). Bioresource2015,10, 1260-1270.https://doi.org/10.15376/biores.10.1.1260–1270
[45]Muraganatham, S.;Anbalagan, G.; Ramamurthy, N. FT-IR and Semeds Comparative Analysis of Medicinal Plants. EcliptaalbaHassk and EcliptaprostrateLinn. Rom J. Biophys. 2009, 19, 285–294.
[46] Mukbaniani,O.;Aneli,J.;Tatrishvili, T.;Markarashvili, E.;Londaridze, L.;Kvinikadze, N.;Kakalashvili, L. Wood Polymer Composite Based On A Styrene And Triethoxy(Vinylphenethyl)silane.Chem. Chem. Technol. 2023,17, 35–44.https://doi.org/10.23939/chcht17.01.035
[47]Mukbaniani, O.;Aneli, J.;Buzaladze, G.;Markarashvili, E.; Tatrishvili, T. Composites on the Basis of Straw with some Organic and Inorganic Binders. Oxid. Commun. 2016,39, 2763–2777.