Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2023, Cilt: 13 Sayı: 1, 1 - 16, 30.06.2023
https://doi.org/10.17678/beuscitech.1135747

Öz

Kaynakça

  • Aprilia, S., Arifin, B., Nasrul, A., Amri, A., Wicaksono, A., & Bakhtiar, D. 2019. Synthesis and characterization film polypropylene/rice husk and rice husk ash nanocomposites. Rasāyan Journal of Chemistry, 12(2), 994–1001.
  • Calignano, F., Lorusso, M., Roppolo, I., & Minetola, P. 2020. Investigation of the mechanical properties of a carbon fibre-reinforced nylon filament for 3D printing. Machines, 8(3), 52.
  • Chandramohan, D., & Kumar, A. J. P. 2017. Experimental data on the properties of natural fiber particle reinforced polymer composite material. Data in Brief, 13, 460–468.
  • Ezenkwa, O. E., Hassan, A., & Samsudin, S. A. 2022. Mechanical properties of rice husk and rice husk ash filled maleated polymers compatibilized polypropylene composites. Journal of Applied Polymer Science, 139(9), 51702.
  • Fuad, M. A., Mustafah, J., Mansor, M., Ishak, Z. M., & Omar, A. M. 1995. Thermal properties of polypropylene/rice husk ash composites. Polymer International, 38(1), 33–43.
  • Garcia, M., Van Vliet, G., Jain, S., Schrauwen, B., Sarkissov, A., Van Zyl, W., & Boukamp, B. 2004. Polypropylene/SiO 2 nanocomposites with improved mechanical properties. Reviews on Advanced Materials Science, 6(2), 169–175.
  • Hardinnawirda, K., & SitiRabiatull, I. 2012. Effect of rice husks as filler in polymer matrix composites. Journal of Mechanical Engineering and Sciences, 2, 181–186.
  • Herrmann, K. 2011. Hardness testing: Principles and applications. ASM international.
  • Hindarso, H., Epriliati, I., Hoerudin, D., & Yuliani, S. 2021. Synthesis and Characterization of Biosilica from Rice Husks as a Catalyst for the Production of Biodiesel. Fine Chemical Engineering, 41–46.
  • Huner, U. 2017. Comparisons of polypropylene composites: The effect of coupling agent on mechanical properties. Online J. Sci. Technol, 7, 28–40.
  • Kenechi, N.-O., Linus, C., & Kayode, A. 2016. Utilization of rice husk as reinforcement in plastic composites fabrication—A review. American Journal of Materials Synthesis and Processing, 1(3), 32–36.
  • Kohno, A., Techasrivichien, T., Suguimoto, S. P., Dahlui, M., Nik Farid, N. D., & Nakayama, T. 2020. Investigation of the key factors that influence the girls to enter into child marriage: A meta-synthesis of qualitative evidence. PloS One, 15(7).
  • Kolawole, J. T., Babafemi, A. J., Fanijo, E., Paul, S. C., & Combrinck, R. (2021). State-of-the-art review on the use of sugarcane bagasse ash in cementitious materials. Cement and Concrete Composites, 118, 103975.
  • Maulida, S. D., & Bukhory, F. 2018. ’The tensile strength properties effect of rice husk ash on the composite of plastic drinking bottle waste. International Journal of Scientific & Technology Research, 4(4), 66–69.
  • Mirjalili, F., Chuah, L., & Salahi, E. 2014. Mechanical and morphological properties of polypropylene/nano α-Al2O3 composites. TheScientificWorldJournal, 2014, 718765–718765. PubMed (24688421). https://doi.org/10.1155/2014/718765
  • Rahman, I. A., & Padavettan, V. 2012. Synthesis of silica nanoparticles by sol-gel: Size-dependent properties, surface modification, and applications in silica-polymer nanocomposites—A review. Journal of Nanomaterials, 2012.
  • Rosa, S. M., Nachtigall, S., & Ferreira, C. A. 2009. Thermal and dynamic-mechanical characterization of rice-husk filled polypropylene composites. Macromolecular Research, 17(1), 8–13.
  • Rufai, I., Uche, O., & Ogork, E. 2012. Biosilica from rice husk ash a new engineering raw material in Nigeria. 1–20.
  • Sarangi, M., Bhattacharyya, S., & Behera, R. 2009. Effect of temperature on morphology and phase transformations of nano-crystalline silica obtained from rice husk. Phase Transitions, 82(5), 377–386.
  • Sharma, P., Khanduja, D., & Sharma, S. 2014. Tribological and mechanical behavior of particulate aluminum matrix composites. Journal of Reinforced Plastics and Composites, 33(23), 2192–2202.
  • Steven, S., Restiawaty, E., & Bindar, Y. 2021. Routes for energy and bio-silica production from rice husk: A comprehensive review and emerging prospect. Renewable and Sustainable Energy Reviews, 149, 111329.
  • Subrahmanyam, A., Narsaraju, G., & Rao, B. S. 2015. Effect of rice husk ash and fly ash reinforcements on microstructure and mechanical properties of aluminium alloy (AlSi10Mg) matrix composites. International Journal of Advanced Science and Technology, 76, 1–8.
  • Suddell, B. C., & Evans, W. J. 2005. Natural fiber composites in automotive applications. In Natural fibers, biopolymers, and biocomposites (pp. 253–282). CRC Press.
  • Uribe, N. C., Echeverry, C. A., Betancur, M. V., Zapata, L. Y. J., & Martínez, J. 2018. Possibilities of rice husk ash to be used as reinforcing filler in polymer sector-a review. Revista UIS Ingenierías, 17(1), 127–142.
  • Yang, H.-S., Kim, H.-J., Park, H.-J., Lee, B.-J., & Hwang, T.-S. 2007. Effect of compatibilizing agents on rice-husk flour reinforced polypropylene composites. Composite Structures, 77(1), 45–55.

Production and investigation of the mechanical properties of polypropylene-biosilica composites

Yıl 2023, Cilt: 13 Sayı: 1, 1 - 16, 30.06.2023
https://doi.org/10.17678/beuscitech.1135747

Öz

Polypropylene (PP) as thermoplastic has found use in the production of a variety of items due to its cheapness which is related to its ease of production. However, its usage is limited due to limitations inherent in its mechanical properties. On the other hand, the production of biosilica (BS) from rice husk ash is a relatively easy process and a cheap source for silica. This, therefore, makes the possibility of production of polypropylene-biosilica composite to further reduce the cost of PP and increase its wide range of applications a field of research. This research developed PP-BS composites with varying compositions of BS and tested their mechanical properties. The mechanical properties like tensile strength, flexural strength, toughness and hardness were experimentally determined using ASTM standard test methods. It was found that the addition of BS to PP does not significantly change its ultimate tensile strength. It was also found that the addition of biosilica to PP causes an average rise in other mechanical properties of the PP matrix-like Young’s Modulus and Flexural Modulus. Whereas, for other mechanical properties such as toughness and hardness, the addition of biosilica to the PP matrix caused an average decrease in these properties.

Kaynakça

  • Aprilia, S., Arifin, B., Nasrul, A., Amri, A., Wicaksono, A., & Bakhtiar, D. 2019. Synthesis and characterization film polypropylene/rice husk and rice husk ash nanocomposites. Rasāyan Journal of Chemistry, 12(2), 994–1001.
  • Calignano, F., Lorusso, M., Roppolo, I., & Minetola, P. 2020. Investigation of the mechanical properties of a carbon fibre-reinforced nylon filament for 3D printing. Machines, 8(3), 52.
  • Chandramohan, D., & Kumar, A. J. P. 2017. Experimental data on the properties of natural fiber particle reinforced polymer composite material. Data in Brief, 13, 460–468.
  • Ezenkwa, O. E., Hassan, A., & Samsudin, S. A. 2022. Mechanical properties of rice husk and rice husk ash filled maleated polymers compatibilized polypropylene composites. Journal of Applied Polymer Science, 139(9), 51702.
  • Fuad, M. A., Mustafah, J., Mansor, M., Ishak, Z. M., & Omar, A. M. 1995. Thermal properties of polypropylene/rice husk ash composites. Polymer International, 38(1), 33–43.
  • Garcia, M., Van Vliet, G., Jain, S., Schrauwen, B., Sarkissov, A., Van Zyl, W., & Boukamp, B. 2004. Polypropylene/SiO 2 nanocomposites with improved mechanical properties. Reviews on Advanced Materials Science, 6(2), 169–175.
  • Hardinnawirda, K., & SitiRabiatull, I. 2012. Effect of rice husks as filler in polymer matrix composites. Journal of Mechanical Engineering and Sciences, 2, 181–186.
  • Herrmann, K. 2011. Hardness testing: Principles and applications. ASM international.
  • Hindarso, H., Epriliati, I., Hoerudin, D., & Yuliani, S. 2021. Synthesis and Characterization of Biosilica from Rice Husks as a Catalyst for the Production of Biodiesel. Fine Chemical Engineering, 41–46.
  • Huner, U. 2017. Comparisons of polypropylene composites: The effect of coupling agent on mechanical properties. Online J. Sci. Technol, 7, 28–40.
  • Kenechi, N.-O., Linus, C., & Kayode, A. 2016. Utilization of rice husk as reinforcement in plastic composites fabrication—A review. American Journal of Materials Synthesis and Processing, 1(3), 32–36.
  • Kohno, A., Techasrivichien, T., Suguimoto, S. P., Dahlui, M., Nik Farid, N. D., & Nakayama, T. 2020. Investigation of the key factors that influence the girls to enter into child marriage: A meta-synthesis of qualitative evidence. PloS One, 15(7).
  • Kolawole, J. T., Babafemi, A. J., Fanijo, E., Paul, S. C., & Combrinck, R. (2021). State-of-the-art review on the use of sugarcane bagasse ash in cementitious materials. Cement and Concrete Composites, 118, 103975.
  • Maulida, S. D., & Bukhory, F. 2018. ’The tensile strength properties effect of rice husk ash on the composite of plastic drinking bottle waste. International Journal of Scientific & Technology Research, 4(4), 66–69.
  • Mirjalili, F., Chuah, L., & Salahi, E. 2014. Mechanical and morphological properties of polypropylene/nano α-Al2O3 composites. TheScientificWorldJournal, 2014, 718765–718765. PubMed (24688421). https://doi.org/10.1155/2014/718765
  • Rahman, I. A., & Padavettan, V. 2012. Synthesis of silica nanoparticles by sol-gel: Size-dependent properties, surface modification, and applications in silica-polymer nanocomposites—A review. Journal of Nanomaterials, 2012.
  • Rosa, S. M., Nachtigall, S., & Ferreira, C. A. 2009. Thermal and dynamic-mechanical characterization of rice-husk filled polypropylene composites. Macromolecular Research, 17(1), 8–13.
  • Rufai, I., Uche, O., & Ogork, E. 2012. Biosilica from rice husk ash a new engineering raw material in Nigeria. 1–20.
  • Sarangi, M., Bhattacharyya, S., & Behera, R. 2009. Effect of temperature on morphology and phase transformations of nano-crystalline silica obtained from rice husk. Phase Transitions, 82(5), 377–386.
  • Sharma, P., Khanduja, D., & Sharma, S. 2014. Tribological and mechanical behavior of particulate aluminum matrix composites. Journal of Reinforced Plastics and Composites, 33(23), 2192–2202.
  • Steven, S., Restiawaty, E., & Bindar, Y. 2021. Routes for energy and bio-silica production from rice husk: A comprehensive review and emerging prospect. Renewable and Sustainable Energy Reviews, 149, 111329.
  • Subrahmanyam, A., Narsaraju, G., & Rao, B. S. 2015. Effect of rice husk ash and fly ash reinforcements on microstructure and mechanical properties of aluminium alloy (AlSi10Mg) matrix composites. International Journal of Advanced Science and Technology, 76, 1–8.
  • Suddell, B. C., & Evans, W. J. 2005. Natural fiber composites in automotive applications. In Natural fibers, biopolymers, and biocomposites (pp. 253–282). CRC Press.
  • Uribe, N. C., Echeverry, C. A., Betancur, M. V., Zapata, L. Y. J., & Martínez, J. 2018. Possibilities of rice husk ash to be used as reinforcing filler in polymer sector-a review. Revista UIS Ingenierías, 17(1), 127–142.
  • Yang, H.-S., Kim, H.-J., Park, H.-J., Lee, B.-J., & Hwang, T.-S. 2007. Effect of compatibilizing agents on rice-husk flour reinforced polypropylene composites. Composite Structures, 77(1), 45–55.
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Bilgi Güvenliği Yönetimi
Bölüm Araştırma Makalesi
Yazarlar

Solomon Sudi 0000-0003-1124-8549

Richard Balthi Mshelia 0000-0001-6739-2270

Yayımlanma Tarihi 30 Haziran 2023
Gönderilme Tarihi 25 Haziran 2022
Yayımlandığı Sayı Yıl 2023 Cilt: 13 Sayı: 1

Kaynak Göster

IEEE S. Sudi ve R. B. Mshelia, “Production and investigation of the mechanical properties of polypropylene-biosilica composites”, Bitlis Eren University Journal of Science and Technology, c. 13, sy. 1, ss. 1–16, 2023, doi: 10.17678/beuscitech.1135747.