Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles

AYDOGDU, YILDIRIM; coşkun, meltem; Qader, Ibrahim Nazem; PEKDEMİR, Mustafa Ersin

doi:10.31202/ecjse.932313

Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles

Mustafa Ersin PEKDEMİR, (Kimya Bölümü, Fen Fakültesi, Fırat Üniversitesi, Elazığ, Türkiye)

Mediha KÖK, (Department of Physics, College of Science, University of Raparin, Sulaymaneyah, Iraq)

Yildirim AYDOGDU, (Gazi Üniversitesi, Fen Fakültesi, Fizik Bölümü, Ankara, Türkiye)

meltem coşkun (Fırat Üniversitesi, Fen Fakültesi, Fizik Bölümü, Elazığ, Türkiye)

El-Cezerî Journal of Science and Engineering

3 0

Yıl: 2021 Cilt: 8 Sayı: 3 Sayfa Aralığı: 1395 - 1404 Metin Dili: İngilizce DOI: 10.31202/ecjse.932313 İndeks Tarihi: 17-10-2022

Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles

Öz:

Polyvinyl chloride (PVC) is one of the popular materials that extensively used in different areas, so scientists are trying to investigate its characteristics in different formats, such as blends and composites, to improve its properties. Due to the distinctive nano particles’ properties, polymer-based nanocomposites can offer new characteristics to pure polymers and can widen their applications in different areas. In this study, we added different compositions of silicon carbide (SiC) to PVC to investigate its molecular, thermal, and microstructural properties. Attenuated total reflection- infrared (ATR-IR), thermogravimetry (TG), differential scanning calorimetry (DSC), and optical microscopy (OM) were utilized to study molecular bond structure, thermal degradation, caloric properties, and surface morphology of the pure PVC and its composites. The first derivative of TG results showed that the temperature of the maximum thermal degradation of the PVC increased with increasing SiC nanoparticle ratio. Also, it is found that the PVC/12 mol% SiC started thermal degradation at comparably low temperature, however, the amount of residue of the composites is more than the pure PVC. Additionally, SiC nanoparticles caused the melting temperature of the composites to slightly shifts to a lower temperature compared to the PVC. It was observed that silicon carbide diminished the smoothness of the surface by increasing its fraction in the composite.

Anahtar Kelime: PVC silicon carbide composite thermal optic microscope

Farklı Miktarlarda SiC Nanopartiküllerini İçeren Polivinilklorür / Silisyum Karbür Nanokompozitlerinin Keşfi

Öz:

Polivinil klorür (PVC), farklı alanlarda yaygın olarak kullanılan popüler malzemelerden biridir, bu nedenle bilim adamları, özelliklerini iyileştirmek için karışımlar ve kompozitler gibi farklı formatlarda özelliklerini araştırmaya çalışıyorlar. Ayırt edici nano parçacıkların özellikleri nedeniyle, polimer bazlı nanokompozitler, saf polimerlere yeni özellikler sunabilir ve farklı alanlardaki uygulamalarını genişletebilir. Bu çalışmada, moleküler, termal ve mikroyapısal özelliklerini araştırmak için PVC'ye farklı oranlarda silisyum karbür (SiC) nanoparçacıklarını ekledik. Saf PVC ve kompozitlerinin moleküler bağ yapısını, termal bozunmasını, kalorik özelliklerini ve yüzey morfolojisini incelemek için zayıflatılmış toplam yansıma-kızılötesi (ATR-IR), termogravimetri (TG), diferansiyel taramalı kalorimetri (DSC) ve optik mikroskop (OM) kullanıldı. TG sonuçlarının ilk türevi, PVC' nin maksimum termal bozunması sıcaklığının artan SiC nanopartikül oranı ile arttığını gösterdi. Aynı zamanda, PVC / % 12 mol SiC'nin nispeten düşük sıcaklıkta termal bozunmaya başladığı, ancak kompozit atık miktarının saf PVC' den daha fazla olduğu bulundu. Ek olarak, SiC nanpartikülleri, kompozitlerin erime sıcaklığının PVC' ye kıyasla biraz daha düşük bir sıcaklığa kaymasına neden oldu. Silisyum karbürün kompozit içindeki payını artmasıyla yüzeyin düzgünlüğünün azaldığı görüldü.

Anahtar Kelime: PVC silisyum karbür kompozit termal optik mikroskop

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1]. Mohammed S. S., Kök M., Çirak Z. D., Qader I. N., Dağdelen F. and Zardawi H. S. A., "The Relationship between Cobalt Amount and Oxidation Parameters in NiTiCo Shape Memory Alloys", Physics of Metals and Metallography, 2020, 121(14): 1411-1417.
[2]. Buytoz S., Dagdelen F., Qader I. N., Kok M. and Tanyildizi B., "Microstructure Analysis and Thermal Characteristics of NiTiHf Shape Memory Alloy with Different Composition", Metals and Materials International, 2019.
[3]. Balci E., Dagdelen F., Qader I. N. and Kok M., "Effects of substituting Nb with V on thermal analysis and biocompatibility assessment of quaternary NiTiNbV SMA", The European Physical Journal Plus, 2021, 136(2): 145.
[4]. Qader I. N., Öner E., Kok M., Mohammed S. S., Dağdelen F., Kanca M. S. and Aydoğdu Y., "Mechanical and Thermal Behavior of Cu84−xAl13Ni3Hfx Shape Memory Alloys", Iranian Journal of Science and Technology, Transactions A: Science, 2020.
[5]. Acar E., Kok M. and Qader I. N., "Exploring surface oxidation behavior of NiTi–V alloys", The European Physical Journal Plus, 2020, 135(1): 58.
[6]. Dagdelen F., Aldalawi M. A. K., Kok M. and Qader I. N., "Influence of Ni addition and heat treatment on phase transformation temperatures and microstructures of a ternary CuAlCr alloy", The European Physical Journal Plus, 2019, 134(2): 66.
[7]. Tatar C., Acar R. and Qader I. N., "Investigation of thermodynamic and microstructural characteristics of NiTiCu shape memory alloys produced by arc-melting method", The European Physical Journal Plus, 2020, 135(3): 311.
[8]. Kök M., Al-Jaf A. O. A., Çirak Z. D., Qader I. N. and Özen E., "Effects of heat treatment temperatures on phase transformation, thermodynamical parameters, crystal microstructure, and electrical resistivity of NiTiV shape memory alloy", Journal of Thermal Analysis and Calorimetry, 2020, 139(6): 3405-3413.
[9]. Qader I. N., Kök M. and Dağdelen F., "Effect of heat treatment on thermodynamics parameters, crystal and microstructure of (Cu-Al-Ni-Hf) shape memory alloy", Physica B: Condensed Matter, 2019, 553: 1-5.
[10]. Kök M., Qader I. N., Mohammed S. S., Öner E., Dağdelen F. and Aydogdu Y., "Thermal stability and some thermodynamics analysis of heat treated quaternary CuAlNiTa shape memory alloy", Materials Research Express, 2019, 7(1): 015702.
[11]. Ercan E., Dagdelen F. and Qader I. N., "Effect of tantalum contents on transformation temperatures, thermal behaviors and microstructure of CuAlTa HTSMAs", Journal of Thermal Analysis and Calorimetry, 2020, 139(1): 29-36.
[12]. Dagdelen F., Kok M. and Qader I. N., "Effects of Ta Content on Thermodynamic Properties and Transformation Temperatures of Shape Memory NiTi Alloy", Metals and Materials International, 2019, 25(6): 1420-1427.
[13]. Mohammed S. S., Kok M., Qader I. N., Kanca M. S., Ercan E., Dağdelen F. and Aydoğdu Y., "Influence of Ta Additive into Cu84−xAl13Ni3 (wt%) Shape Memory Alloy Produced by Induction Melting", Iranian Journal of Science and Technology, Transactions A: Science, 2020, 44(4): 1167-1175.
[14]. Qader I. N., Kök M., Dağdelen F. and Aydogdu Y., "A Review of Smart Materials: Researches and Applications", El-Cezerî Journal of Science and Engineering, 2019, 6(3): 755-788.
[15]. Kök M., Zardawi H. S. A., Qader I. N. and Sait Kanca M., "The effects of cobalt elements addition on Ti2Ni phases, thermodynamics parameters, crystal structure and transformation temperature of NiTi shape memory alloys", The European Physical Journal Plus, 2019, 134(5): 197.
[16]. Qader I. N., Kok M. and Cirak Z. D., "The effects of substituting Sn for Ni on the thermal and some other characteristics of NiTiSn shape memory alloys", Journal of Thermal Analysis and Calorimetry, 2020.
[17]. Dagdelen F., Balci E., Qader I. N., Ozen E., Kok M., Kanca M. S., Abdullah S. S. and Mohammed S. S., "Influence of the Nb Content on the Microstructure and Phase Transformation Properties of NiTiNb Shape Memory Alloys", JOM, 2020, 72(4): 1664-1672.
[18]. Qader I. N., Ercan E., Faraj B. A. M., Kok M., Dagdelen F. and Aydogdu Y., "The Influence of Time-Dependent Aging Process on the Thermodynamic Parameters and Microstructures of Quaternary Cu79–Al12–Ni4–Nb5 (wt%) Shape Memory Alloy", Iranian Journal of Science and Technology, Transactions A: Science, 2020, 44(3): 903-910.
[19]. AKKAŞ M. and BOUSHİHA K. F. I., "Investigation of WC Reinforced CuNiSi Composites Produced by Mechanical Alloying Method", El-Cezerî Journal of Science and Engineering, 8(2): 592-603.
[20]. Buytoz S., Kok M., Qader I., Balci E. and Dagdelen F., "Microstructure of NiCrBSi/WC composite coating deposited on AISI316 stainless steel by TIG coating process", Surface Review and Letters, 2020: 2050050.
[21]. İmran O., "Investigation of Surface Damages in Composite Materials Using Ultrasonic Lamb Waves", El-Cezerî Journal of Science and Engineering, 8(2): 652-665.
[22]. ERGÜL E., Halil K., Can Ç. and EYİCİ G., "Wear Characteristics of Carbon Nanotube Reinforced Al2024 Composites", El-Cezerî Journal of Science and Engineering, 7(3): 1008- 1016.
[23]. Güneş İ., Uygunoğlu T. and Çelik A. G., "Microwave curing process parameters on epoxy based polymer composites", El-Cezerî Journal of Science and Engineering, 7(2): 795-805.
[24]. Yu J., Sun L., Ma C., Qiao Y. and Yao H., "Thermal degradation of PVC: A review", Waste Management, 2016, 48: 300-314.
[25]. Tukur A., Pekdemir M. E., Haruna H. and Coşkun M., "Magnetic nanoparticle bonding to PVC with the help of click reaction: characterization, thermal and electrical investigation", Journal of Polymer Research, 2020, 27(6): 161.
[26]. Fang Y., Wang Q., Guo C., Song Y. and Cooper P. A., "Effect of zinc borate and wood flour on thermal degradation and fire retardancy of Polyvinyl chloride (PVC) composites", Journal of Analytical and Applied Pyrolysis, 2013, 100: 230-236.
[27]. Yazdani H., Smith B. E. and Hatami K., "Multi-walled carbon nanotube-filled polyvinyl chloride composites: Influence of processing method on dispersion quality, electrical conductivity and mechanical properties", Composites Part A: Applied Science and Manufacturing, 2016, 82: 65-77.
[28]. Chiscan O., Dumitru I., Postolache P., Tura V. and Stancu A., "Electrospun PVC/Fe3O4 composite nanofibers for microwave absorption applications", Materials Letters, 2012, 68: 251- 254.
[29]. Ebnalwaled A. A. and Thabet A., "Controlling the optical constants of PVC nanocomposite films for optoelectronic applications", Synthetic Metals, 2016, 220: 374-383.
[30]. Pekdemir M. E., "Poli (Vinil klorür)/Fe3O4 Manyetik Nanopartikül Kompozitlerinin Sentezi, Termal ve Elektriksel Özelliklerinin İncelenmesi", Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilimleri Dergisi, 20(5): 802-809.
[31]. Baig U., Gondal M. A., Ansari M. A. and Akhtar S., "Facile synthesis, characterization and antibacterial activity of nanostructured palladium loaded silicon carbide", Ceramics International, 2018, 44(14): 16908-16914.
[32]. Rajarao R., Ferreira R., Sadi S. H. F., Khanna R. and Sahajwalla V., "Synthesis of silicon carbide nanoparticles by using electronic waste as a carbon source", Materials Letters, 2014, 120: 65-68.
[33]. Alghunaim N. S., "Structural, thermal, dielectric spectroscopic and AC impedance properties of SiC nanoparticles doped PVK/PVC blend", Results in Physics, 2018, 9: 1136-1140.
[34]. Haruna H., Pekdemir M. E., Tukur A. and Coşkun M., "Characterization, thermal and electrical properties of aminated PVC / oxidized MWCNT composites doped with nanographite", Journal of Thermal Analysis and Calorimetry, 2020, 139(6): 3887-3895.
[35]. Reddy K. R., Lee K. P. and Gopalan A. I., "Novel electrically conductive and ferromagnetic composites of poly (aniline co aminonaphthalenesulfonic acid) with iron oxide nanoparticles: synthesis and characterization", Journal of applied polymer science, 2007, 106(2): 1181-1191.
[36]. Haruna H., Pekdemir M. E., Tukur A. and Coşkun M., "Characterization, thermal and electrical properties of aminated PVC/oxidized MWCNT composites doped with nanographite", Journal of Thermal Analysis and Calorimetry, 2020, 139(6): 3887-3895.
[37]. Yu M.-m., Chen S.-h., Zhou Z. and Zhu M.-f., "Novel flexible broadband microwave absorptive fabrics coated with graphite nanosheets/polyurethane nanocomposites", Progress in natural science: Materials international, 2012, 22(4): 288-294.
[38]. Hasan M. and Lee M., "Enhancement of the thermo-mechanical properties and efficacy of mixing technique in the preparation of graphene/PVC nanocomposites compared to carbon nanotubes/PVC", Progress in Natural Science: Materials International, 2014, 24(6): 579-587.
[39]. Erdem B., Sudol E. D., Dimonie V. L. and El Aasser M. S., "Encapsulation of inorganic particles via miniemulsion polymerization. I. Dispersion of titanium dioxide particles in organic media using OLOA 370 as stabilizer", Journal of Polymer Science Part A: Polymer Chemistry, 2000, 38(24): 4419-4430.
[40]. Khan A. A. and Paquiza L., "Characterization and ion-exchange behavior of thermally stable nano-composite polyaniline zirconium titanium phosphate: its analytical application in separation of toxic metals", Desalination, 2011, 265(1-3): 242-254.
[41]. Elashmawi I., Hakeem N., Marei L. and Hanna F., "Structure and performance of ZnO/PVC nanocomposites", Physica B: Condensed Matter, 2010, 405(19): 4163-4169.
[42]. Geilich B. M. and Webster T. J., editors. Reduced adhesion of Staphylococcus aureus to ZnO/PVC nanocomposites. 2013 39th Annual Northeast Bioengineering Conference; 2013, IEEE.
[43]. Taha T. A., "Optical properties of PVC/Al2O3 nanocomposite films", Polymer Bulletin, 2019, 76(2): 903-918.
[44]. Gorassini A., Adami G., Calvini P. and Giacomello A., "ATR-FTIR characterization of old pressure sensitive adhesive tapes in historic papers", Journal of Cultural Heritage, 2016, 21: 775-785.
[45]. Sun J., Li J., Sun G., Zhang B., Zhang S. and Zhai H., "Dielectric and infrared properties of silicon carbide nanopowders", Ceramics international, 2002, 28(7): 741-745.
[46]. Li Y., Chen C., Li J.-T., Yang Y. and Lin Z.-M., "Surface charges and optical characteristic of colloidal cubic SiC nanocrystals", Nanoscale research letters, 2011, 6(1): 1-7.
[47]. Klarić I., Vrandečić N. S. and Roje U., "Effect of poly(vinyl chloride)/chlorinated polyethylene blend composition on thermal stability", Journal of Applied Polymer Science, 2000, 78(1): 166- 172.
[48]. Jia P., Hu L., Feng G., Bo C., Zhang M. and Zhou Y., "PVC materials without migration obtained by chemical modification of azide-functionalized PVC and triethyl citrate plasticizer", Materials chemistry and physics, 2017, 190: 25-30.
[49]. Altenhofen da Silva M., Adeodato Vieira M. G., Gomes Maçumoto A. C. and Beppu M. M., "Polyvinylchloride (PVC) and natural rubber films plasticized with a natural polymeric plasticizer obtained through polyesterification of rice fatty acid", Polymer Testing, 2011, 30(5): 478-484.
[50]. Guler K., Kisasoz A. and Karaaslan A., "The fabrication and characterization of Al/SiC-MMC castings produced by vacuum assisted solidmould investment casting process", Russian Journal of Non-Ferrous Metals, 2013, 54(4): 320-324.
[51]. Ghandvar H., Idris M. H., Ahmad N. and Moslemi N., "Microstructure development, mechanical and tribological properties of a semisolid A356/xSiCp composite", Journal of applied research and technology, 2017, 15(6): 533-544.

APA	PEKDEMİR M, Qader I, AYDOGDU Y, coşkun m (2021). Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. , 1395 - 1404. 10.31202/ecjse.932313
Chicago	PEKDEMİR Mustafa Ersin,Qader Ibrahim Nazem,AYDOGDU YILDIRIM,coşkun meltem Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. (2021): 1395 - 1404. 10.31202/ecjse.932313
MLA	PEKDEMİR Mustafa Ersin,Qader Ibrahim Nazem,AYDOGDU YILDIRIM,coşkun meltem Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. , 2021, ss.1395 - 1404. 10.31202/ecjse.932313
AMA	PEKDEMİR M,Qader I,AYDOGDU Y,coşkun m Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. . 2021; 1395 - 1404. 10.31202/ecjse.932313
Vancouver	PEKDEMİR M,Qader I,AYDOGDU Y,coşkun m Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. . 2021; 1395 - 1404. 10.31202/ecjse.932313
IEEE	PEKDEMİR M,Qader I,AYDOGDU Y,coşkun m "Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles." , ss.1395 - 1404, 2021. 10.31202/ecjse.932313
ISNAD	PEKDEMİR, Mustafa Ersin vd. "Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles". (2021), 1395-1404. https://doi.org/10.31202/ecjse.932313

APA	PEKDEMİR M, Qader I, AYDOGDU Y, coşkun m (2021). Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. El-Cezerî Journal of Science and Engineering, 8(3), 1395 - 1404. 10.31202/ecjse.932313
Chicago	PEKDEMİR Mustafa Ersin,Qader Ibrahim Nazem,AYDOGDU YILDIRIM,coşkun meltem Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. El-Cezerî Journal of Science and Engineering 8, no.3 (2021): 1395 - 1404. 10.31202/ecjse.932313
MLA	PEKDEMİR Mustafa Ersin,Qader Ibrahim Nazem,AYDOGDU YILDIRIM,coşkun meltem Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. El-Cezerî Journal of Science and Engineering, vol.8, no.3, 2021, ss.1395 - 1404. 10.31202/ecjse.932313
AMA	PEKDEMİR M,Qader I,AYDOGDU Y,coşkun m Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. El-Cezerî Journal of Science and Engineering. 2021; 8(3): 1395 - 1404. 10.31202/ecjse.932313
Vancouver	PEKDEMİR M,Qader I,AYDOGDU Y,coşkun m Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles. El-Cezerî Journal of Science and Engineering. 2021; 8(3): 1395 - 1404. 10.31202/ecjse.932313
IEEE	PEKDEMİR M,Qader I,AYDOGDU Y,coşkun m "Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles." El-Cezerî Journal of Science and Engineering, 8, ss.1395 - 1404, 2021. 10.31202/ecjse.932313
ISNAD	PEKDEMİR, Mustafa Ersin vd. "Exploring of Polyvinylchloride / Silicon Carbide Nanocomposites Containing Different Amounts of SiC Nanoparticles". El-Cezerî Journal of Science and Engineering 8/3 (2021), 1395-1404. https://doi.org/10.31202/ecjse.932313