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Al2O3 ve TiO2 nanopartikül katkısının cam elyaf takviyeli kompozitlerin mekanik özelliklerine ve burkulma davranışına etkisi

Year 2022, Volume: 7 Issue: 3, 161 - 172, 30.12.2022
https://doi.org/10.46578/humder.1148418

Abstract

Bu çalışmada Al2O3 ve TiO2 nanopartikül takviyesinin e-cam elyaf takviyeli polimer kompozitlerin mekanik özelliklerine ve burkulma davranışına etkisi deneysel olarak incelenmiştir. Bu kapsamda saf, %2 Al2O3 katkılı ve %2 TiO2 katkılı e-cam elyaf takviyeli üç farklı kompozit plaka vakum destekli reçine infüzyon yöntemi ile üretilmiştir.
E-cam elyaf olarak dokuma (woven) kumaş kullanılmış olup, üretilen plakalar CNC freze tezgâhında çekme, basma, eğilme, darbe ve burkulma deneylerini gerçekleştirmek için standartlara göre kesilmiştir. Elde edilen bulgular neticesinde %2 Al2O3 ve %2 TiO2 nanopartikül katkılı kompozitlerin, saf haldeki kompozite göre mekanik özellikleri ve burkulmadaki kritik yükü iyileştirdiği tespit edilmiş ve %2 Al2O3 katkılı kompozitin %2 TiO2 katkılı kompozite göre daha fazla iyileşme sağladığı görülmüştür.

Supporting Institution

Harran Üniversitesi Bilimsel Araştırma Projeleri Birimi

Project Number

19354

Thanks

Bu çalışma, Harran Üniversitesi Bilimsel Araştırma Projeleri Birimi tarafından 19354 numaralı Proje ile desteklenmiştir.

References

  • G. Demircan, M. Kısa, M. Özen, B. Aktaş, Surface-modified alumina nanoparticles-filled aramid fiber-reinforced epoxy nanocomposites: preparation and mechanical properties. Iranian Polymer Journal, 29:3 (2020) 253-264.
  • R. K. Nayak, B. C. Ray, Retention of mechanical and thermal properties of hydrothermal aged glass fiber-reinforced polymer nanocomposites. Polymer-Plastics Technology and Engineering, 57:16 (2018) 1676-1686.
  • M. Özen, G. Demircan, M. Kısa, Z. İlik, Investigation of usability of waste textile fabrics in composites. Emerging Materials Research, 9:1 (2019) 18-23.
  • R. K. Nayak, Influence of seawater aging on mechanical properties of nano-Al2O3 embedded glass fiber reinforced polymer nanocomposites. Construction and Building Materials, 221 (2019) 12-19.
  • M. Özen, G. Demircan, M. Kısa, A. Açıkgöz, G. Ceyhan, Y. Işıker, Thermal properties of surface-modified nano-Al2O3/kevlar fiber/epoxy composites. Materials Chemistry and Physics, 278 (2022) 125689.
  • K. K. Mahato, K. Dutta B. C. Ray, Assessment of mechanical, thermal and morphological behavior of nano-Al2O3 embedded glass fiber/epoxy composites at in-situ elevated temperatures. Composites Part B: Engineering, 166 (2019) 688-700.
  • M. Joshi, U. Chatterjee, Polymer nanocomposite: an advanced material for aerospace applications. Advanced composite materials for aerospace engineering. Woodhead Publishing, 2016. 241-264.
  • T. Bağatır, Grafen nanopartikül takviyesinin kompozit malzemelerin mekanik özellikleri üzerindeki etkisinin araştırılması. MS Thesis, Batman Üniversitesi, 2018
  • S. Shahbakhsh, E. Tohidlou, H. Khosravi, Influence of modified carbonate calcium nanoparticles on the mechanical properties of carbon fiber/epoxy composites. The Journal of The Textile Institute 111:4 (2020) 550-554.
  • M. Megahed, A. A. Megahed, M. A. Agwa, The influence of incorporation of silica and carbon nanoparticles on the mechanical properties of hybrid glass fiber reinforced epoxy. Journal of Industrial Textiles 49:2 (2019) 181-199.
  • M. H. Pol, G. H. Liaghat, Studies on the mechanical properties of composites reinforced with nanoparticles. Polymer Composites, 38:1 (2017) 205-212.
  • F. H. Chowdhury, M. V. Hosur, S. Jeelani, Studies on the flexural and thermomechanical properties of woven carbon/nanoclay-epoxy laminates. Materials Science and Engineering: A, 421.1-2 (2006) 298-306.
  • C. Peng, X. Li, The mechanical properties of PEEK/CF composites reinforced with ZrO2 nanoparticles. Mechanics of Composite Materials, 49:6 (2014) 679-684.
  • F. Liu, S. Deng, J. Zhang, Mechanical properties of epoxy and its carbon fiber composites modified by nanoparticles. Journal of Nanomaterials, 2017 (2017).
  • A. S. Thakur, N. Sharma, S. Kango, S. Sharma, Effect of nanoparticles on epoxy based composites: A short review. Materials Today: Proceedings, 44 (2021) 4640-4642.
  • M. ÖZEN, E-Cam/Epoksi kompozitlerde lif doğrultularının gerilme gevşeme davranışı üzerindeki etkisi. Fırat Üniversitesi Mühendislik Bilimleri Dergisi, 29:1 (2017) 219-224.
  • G. Demircan, M. Kisa, M. Ozen, A. Acikgoz, Quasi-static penetration behavior of glass-fiber-reinforced epoxy nanocomposites. Mechanics of Composite Materials, 57:4 (2021) 503-516.
  • A. Fathy, A. Shaker, M. A. Hamid, A. A. Megahed, The effects of nano-silica/nano-alumina on fatigue behavior of glass fiber-reinforced epoxy composites. Journal of Composite Materials, 51:12 (2017): 1667-1679.
  • A. Kumar, A. Saha, S. Kumar, Structural analysis of sol-gel derived TiO2 nanoparticles: a critical impact of TiO2 nanoparticles on thermo-mechanical mechanism of glass fiber polymer composites. Journal of Polymer Research, 28:11 (2021) 1-16.
  • S. Thipperudrappa, A. U. Kini, A. Hiremath, An experimental study to evaluate the effect of TiO2 nanoparticles on the strength and stability of unidirectional glass fiber reinforced epoxy composites. Materials Research Express, 6:11 (2019): 115347.
  • G. Seshanandan, D. Ravindran, T. Sornakumar. Effect of nano aluminum oxide fillers on the properties of frp polymer matrix composites. Applied Mechanics and Materials. Vol. 787. Trans Tech Publications Ltd, 2015.
  • S. Nallusamy, Characterization of epoxy composites with TiO2 additives and E-glass fibers as reinforcement agent. Journal of Nano Research. Trans Tech Publications Ltd, (2016) 99-104.
  • S. Thipperudrappa, A. Hiremath, B. N. Kurki, Synergistic effect of ZnO and TiO2 nanoparticles on the thermal stability and mechanical properties of glass fiber‐reinforced LY556 epoxy composites. Polymer Composites 42:9 (2021): 4831-4844.
  • Ö. Özbek, Axial and lateral buckling analysis of kevlar/epoxy fiber‐reinforced composite laminates incorporating silica nanoparticles. Polymer Composites, 42:3 (2021) 1109-1122.
  • H. B. Mutu, Z. Aslan. Experimental investigation of buckling behavior of E-glass/epoxy laminated composite materials with multi-walled carbon nanotube under uniaxial compression load. Journal of Composite Materials, (2022): 00219983221098795.
Year 2022, Volume: 7 Issue: 3, 161 - 172, 30.12.2022
https://doi.org/10.46578/humder.1148418

Abstract

Project Number

19354

References

  • G. Demircan, M. Kısa, M. Özen, B. Aktaş, Surface-modified alumina nanoparticles-filled aramid fiber-reinforced epoxy nanocomposites: preparation and mechanical properties. Iranian Polymer Journal, 29:3 (2020) 253-264.
  • R. K. Nayak, B. C. Ray, Retention of mechanical and thermal properties of hydrothermal aged glass fiber-reinforced polymer nanocomposites. Polymer-Plastics Technology and Engineering, 57:16 (2018) 1676-1686.
  • M. Özen, G. Demircan, M. Kısa, Z. İlik, Investigation of usability of waste textile fabrics in composites. Emerging Materials Research, 9:1 (2019) 18-23.
  • R. K. Nayak, Influence of seawater aging on mechanical properties of nano-Al2O3 embedded glass fiber reinforced polymer nanocomposites. Construction and Building Materials, 221 (2019) 12-19.
  • M. Özen, G. Demircan, M. Kısa, A. Açıkgöz, G. Ceyhan, Y. Işıker, Thermal properties of surface-modified nano-Al2O3/kevlar fiber/epoxy composites. Materials Chemistry and Physics, 278 (2022) 125689.
  • K. K. Mahato, K. Dutta B. C. Ray, Assessment of mechanical, thermal and morphological behavior of nano-Al2O3 embedded glass fiber/epoxy composites at in-situ elevated temperatures. Composites Part B: Engineering, 166 (2019) 688-700.
  • M. Joshi, U. Chatterjee, Polymer nanocomposite: an advanced material for aerospace applications. Advanced composite materials for aerospace engineering. Woodhead Publishing, 2016. 241-264.
  • T. Bağatır, Grafen nanopartikül takviyesinin kompozit malzemelerin mekanik özellikleri üzerindeki etkisinin araştırılması. MS Thesis, Batman Üniversitesi, 2018
  • S. Shahbakhsh, E. Tohidlou, H. Khosravi, Influence of modified carbonate calcium nanoparticles on the mechanical properties of carbon fiber/epoxy composites. The Journal of The Textile Institute 111:4 (2020) 550-554.
  • M. Megahed, A. A. Megahed, M. A. Agwa, The influence of incorporation of silica and carbon nanoparticles on the mechanical properties of hybrid glass fiber reinforced epoxy. Journal of Industrial Textiles 49:2 (2019) 181-199.
  • M. H. Pol, G. H. Liaghat, Studies on the mechanical properties of composites reinforced with nanoparticles. Polymer Composites, 38:1 (2017) 205-212.
  • F. H. Chowdhury, M. V. Hosur, S. Jeelani, Studies on the flexural and thermomechanical properties of woven carbon/nanoclay-epoxy laminates. Materials Science and Engineering: A, 421.1-2 (2006) 298-306.
  • C. Peng, X. Li, The mechanical properties of PEEK/CF composites reinforced with ZrO2 nanoparticles. Mechanics of Composite Materials, 49:6 (2014) 679-684.
  • F. Liu, S. Deng, J. Zhang, Mechanical properties of epoxy and its carbon fiber composites modified by nanoparticles. Journal of Nanomaterials, 2017 (2017).
  • A. S. Thakur, N. Sharma, S. Kango, S. Sharma, Effect of nanoparticles on epoxy based composites: A short review. Materials Today: Proceedings, 44 (2021) 4640-4642.
  • M. ÖZEN, E-Cam/Epoksi kompozitlerde lif doğrultularının gerilme gevşeme davranışı üzerindeki etkisi. Fırat Üniversitesi Mühendislik Bilimleri Dergisi, 29:1 (2017) 219-224.
  • G. Demircan, M. Kisa, M. Ozen, A. Acikgoz, Quasi-static penetration behavior of glass-fiber-reinforced epoxy nanocomposites. Mechanics of Composite Materials, 57:4 (2021) 503-516.
  • A. Fathy, A. Shaker, M. A. Hamid, A. A. Megahed, The effects of nano-silica/nano-alumina on fatigue behavior of glass fiber-reinforced epoxy composites. Journal of Composite Materials, 51:12 (2017): 1667-1679.
  • A. Kumar, A. Saha, S. Kumar, Structural analysis of sol-gel derived TiO2 nanoparticles: a critical impact of TiO2 nanoparticles on thermo-mechanical mechanism of glass fiber polymer composites. Journal of Polymer Research, 28:11 (2021) 1-16.
  • S. Thipperudrappa, A. U. Kini, A. Hiremath, An experimental study to evaluate the effect of TiO2 nanoparticles on the strength and stability of unidirectional glass fiber reinforced epoxy composites. Materials Research Express, 6:11 (2019): 115347.
  • G. Seshanandan, D. Ravindran, T. Sornakumar. Effect of nano aluminum oxide fillers on the properties of frp polymer matrix composites. Applied Mechanics and Materials. Vol. 787. Trans Tech Publications Ltd, 2015.
  • S. Nallusamy, Characterization of epoxy composites with TiO2 additives and E-glass fibers as reinforcement agent. Journal of Nano Research. Trans Tech Publications Ltd, (2016) 99-104.
  • S. Thipperudrappa, A. Hiremath, B. N. Kurki, Synergistic effect of ZnO and TiO2 nanoparticles on the thermal stability and mechanical properties of glass fiber‐reinforced LY556 epoxy composites. Polymer Composites 42:9 (2021): 4831-4844.
  • Ö. Özbek, Axial and lateral buckling analysis of kevlar/epoxy fiber‐reinforced composite laminates incorporating silica nanoparticles. Polymer Composites, 42:3 (2021) 1109-1122.
  • H. B. Mutu, Z. Aslan. Experimental investigation of buckling behavior of E-glass/epoxy laminated composite materials with multi-walled carbon nanotube under uniaxial compression load. Journal of Composite Materials, (2022): 00219983221098795.
There are 25 citations in total.

Details

Primary Language Turkish
Subjects Mechanical Engineering
Journal Section Research Articles
Authors

Cenap Güven 0000-0001-9868-3249

Murat Kısa 0000-0001-7015-2198

Mustafa Özen 0000-0002-0282-9387

Gökhan Demircan 0000-0002-9579-6878

Project Number 19354
Early Pub Date October 11, 2022
Publication Date December 30, 2022
Submission Date July 25, 2022
Acceptance Date September 29, 2022
Published in Issue Year 2022 Volume: 7 Issue: 3

Cite

APA Güven, C., Kısa, M., Özen, M., Demircan, G. (2022). Al2O3 ve TiO2 nanopartikül katkısının cam elyaf takviyeli kompozitlerin mekanik özelliklerine ve burkulma davranışına etkisi. Harran Üniversitesi Mühendislik Dergisi, 7(3), 161-172. https://doi.org/10.46578/humder.1148418