Research Article
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Year 2023, , 190 - 195, 25.07.2023
https://doi.org/10.30518/jav.1287618

Abstract

References

  • Ateş, E., & Aztekin, K. (2011). Density and compression strength properties of particulated and fiber reinforced polymer composites. Journal of the Faculty of Engineering and Architecture of Gazi University, 26(2), 479– 486.
  • Boztoprak, Y., & Kartal, İ. (2019). Bor Nitrür Partikülleriyle Takviyelendirilmiş Vinil Ester Matrisli Kompozitlerin Mekanik Özelliklerinin İncelenmesi. El-Cezeri Fen ve Mühendislik Dergisi, 2019(1), 43–50.
  • Çakir, M., & Berberoğlu, B. (2018). E-Cam Elyaf Takviyeli Epoksi Matrisli Kompozit Malzemelerin Elyaf Oranındaki Artış İle Mekanik Özelliklerindeki Değişimlerin İncelenmesi. El-Cezeri Fen ve Mühendislik Dergisi, 5(3), 734–740.
  • Erdoğan, A., Gök, M. S., Koç, V., & Günen, A. (2019). Friction and wear behavior of epoxy composite filled with industrial wastes. Journal of Cleaner Production, 237.
  • Erdogan, A., Gök, M. S., Kurşuncu, B., Kiraz, T., & Demirel, B. (2021). Mechanical and tribological properties of
  • waste iron scale reinforced polypropylene composite. Industrial Lubrication and Tribology, 73(2), 388–395.
  • Hamamcı, B., Çiftci, M., & Aktaş, T. (2018). Karadeniz Fen Bilimleri Dergisi The Black Sea Journal of Sciences
  • Fonksiyonel Derecelendirilmiş Kirişlerin Serbest Titreşim Analizi. Karadeniz Fen Bilimleri Dergisi, 8(2), 119–130.
  • Jesson, D. A., & Watts, J. F. (2012). The interface and interphase in polymer matrix composites: Effect on mechanical properties and methods for identification. Polymer Reviews, 52(3–4), 321–354.
  • Karthik, K., Rajamani, D., Manimaran, A., & Udaya Prakash, J. (2020). Wear behaviour of hybrid polymer matrix composites using Taguchi technique. Materials Today: Proceedings, 33, 3186–3190.
  • Kessler, M. R. (2012). Polymer matrix composites: A perspective for a special issue of polymer reviews. Polymer Reviews, 52(3–4), 229–233.
  • Koç, V., & Demİrel, M. (2019). Epoksi Reçine-MgO Polimer Matrisli Kompozit Malzemelerin Üretilmesi ve Pin On Disk Abrasiv Aşınma Özelliklerinin İncelenmesi. Fırat Üniversitesi Mühendislik Bilimleri Dergisi, 31(1), 1–10.
  • Kulkarni, V., Butte, K., & Rathod, S. (2012). Natural Polymers – A Comprehensive Review. International Journal of Research in Pharmaceutical and Biomedical Sciences, 3(4), 1597–1613.
  • Kumar, P., Joshi, R. S., & Singla, R. K. (2021). Sliding wear behaviour of CP titanium laminates produced by large strain extrusion machining. Wear, 477(September 2020), 203774.
  • Kuo, C., Wang, C., & Ko, S. (2018). Wear behaviour of CVD diamond-coated tools in the drilling of woven CFRP composites. Wear, 398–399(September 2016), 1–12.
  • Kursuncu, B., Erdogan, A., Gok, M. S., & Demirel, B. (2020). Investigation of mechanical and tribological properties of different grain size iron scale reinforced polymer composite. Polymers and Polymer Composites, 1–8.
  • Man, Z., Wang, H., He, Q., Kim, D. E., & Chang, L. (2021). Friction and wear behaviour of additively manufactured continuous carbon fibre reinforced PA6 composites. Composites Part B: Engineering, 226(April), 109332.
  • Mohamed, H. (2013). Trimming of cfrp aircraft components. 1–14.
  • Polanec, B., Zupanič, F., Bončina, T., Tašner, F., & Glodež, S. (2021). Experimental investigation of the wear behaviour of coated polymer gears. Polymers, 13(20).
  • Sari, N., & Sinmazçelik, T. (2007). Erosive wear behaviour of carbon fibre/polyetherimide composites under low particle speed. Materials and Design, 28(1), 351–355.
  • Seeholzer, L., Kneubühler, F., Grossenbacher, F., & Wegener, K. (2021). Tool wear and spring back analysis in orthogonal machining unidirectional CFRP with respect to tool geometry and fibre orientation. International Journal of Advanced Manufacturing Technology, 115(9–10), 2905–2928.
  • Thomas, C., Borges, P. H. R., Panzera, T. H., Cimentada, A., & Lombillo, I. (2014). Epoxy composites containing CFRP powder wastes. Composites Part B: Engineering, 59, 260–268.

Investigation of Dry Sliding Wear Behavior of CFRP Composite Used in New Generation Aircraft Wings

Year 2023, , 190 - 195, 25.07.2023
https://doi.org/10.30518/jav.1287618

Abstract

In this study, it is aimed to examine the effect of reinforcement laying angle on wear resistance of CFRP composites used in the automotive and aerospace industries. Experiments were carried out on Ball-On-Disc wear device under 1, 3 and 5 N loads at room temperature. 3D optical microscope was used to determine the volume losses in the samples. The worn surface morphology of the samples was examined with the help of SEM (Scanning Electron Microscopy). In the test results, the volume losses of the samples increased depending on the increasing loads and shear rate. It has been understood that the change of the laying angle is important in the dry-sliding resistance of the samples. The wear resistance of the samples produced with 45 degree laying was better at both sliding speeds and all loads. It has also been understood that the laying angle is also effective in the coefficient of friction. Delamination, plastic deformation type dominant wear mechanisms have occurred.

References

  • Ateş, E., & Aztekin, K. (2011). Density and compression strength properties of particulated and fiber reinforced polymer composites. Journal of the Faculty of Engineering and Architecture of Gazi University, 26(2), 479– 486.
  • Boztoprak, Y., & Kartal, İ. (2019). Bor Nitrür Partikülleriyle Takviyelendirilmiş Vinil Ester Matrisli Kompozitlerin Mekanik Özelliklerinin İncelenmesi. El-Cezeri Fen ve Mühendislik Dergisi, 2019(1), 43–50.
  • Çakir, M., & Berberoğlu, B. (2018). E-Cam Elyaf Takviyeli Epoksi Matrisli Kompozit Malzemelerin Elyaf Oranındaki Artış İle Mekanik Özelliklerindeki Değişimlerin İncelenmesi. El-Cezeri Fen ve Mühendislik Dergisi, 5(3), 734–740.
  • Erdoğan, A., Gök, M. S., Koç, V., & Günen, A. (2019). Friction and wear behavior of epoxy composite filled with industrial wastes. Journal of Cleaner Production, 237.
  • Erdogan, A., Gök, M. S., Kurşuncu, B., Kiraz, T., & Demirel, B. (2021). Mechanical and tribological properties of
  • waste iron scale reinforced polypropylene composite. Industrial Lubrication and Tribology, 73(2), 388–395.
  • Hamamcı, B., Çiftci, M., & Aktaş, T. (2018). Karadeniz Fen Bilimleri Dergisi The Black Sea Journal of Sciences
  • Fonksiyonel Derecelendirilmiş Kirişlerin Serbest Titreşim Analizi. Karadeniz Fen Bilimleri Dergisi, 8(2), 119–130.
  • Jesson, D. A., & Watts, J. F. (2012). The interface and interphase in polymer matrix composites: Effect on mechanical properties and methods for identification. Polymer Reviews, 52(3–4), 321–354.
  • Karthik, K., Rajamani, D., Manimaran, A., & Udaya Prakash, J. (2020). Wear behaviour of hybrid polymer matrix composites using Taguchi technique. Materials Today: Proceedings, 33, 3186–3190.
  • Kessler, M. R. (2012). Polymer matrix composites: A perspective for a special issue of polymer reviews. Polymer Reviews, 52(3–4), 229–233.
  • Koç, V., & Demİrel, M. (2019). Epoksi Reçine-MgO Polimer Matrisli Kompozit Malzemelerin Üretilmesi ve Pin On Disk Abrasiv Aşınma Özelliklerinin İncelenmesi. Fırat Üniversitesi Mühendislik Bilimleri Dergisi, 31(1), 1–10.
  • Kulkarni, V., Butte, K., & Rathod, S. (2012). Natural Polymers – A Comprehensive Review. International Journal of Research in Pharmaceutical and Biomedical Sciences, 3(4), 1597–1613.
  • Kumar, P., Joshi, R. S., & Singla, R. K. (2021). Sliding wear behaviour of CP titanium laminates produced by large strain extrusion machining. Wear, 477(September 2020), 203774.
  • Kuo, C., Wang, C., & Ko, S. (2018). Wear behaviour of CVD diamond-coated tools in the drilling of woven CFRP composites. Wear, 398–399(September 2016), 1–12.
  • Kursuncu, B., Erdogan, A., Gok, M. S., & Demirel, B. (2020). Investigation of mechanical and tribological properties of different grain size iron scale reinforced polymer composite. Polymers and Polymer Composites, 1–8.
  • Man, Z., Wang, H., He, Q., Kim, D. E., & Chang, L. (2021). Friction and wear behaviour of additively manufactured continuous carbon fibre reinforced PA6 composites. Composites Part B: Engineering, 226(April), 109332.
  • Mohamed, H. (2013). Trimming of cfrp aircraft components. 1–14.
  • Polanec, B., Zupanič, F., Bončina, T., Tašner, F., & Glodež, S. (2021). Experimental investigation of the wear behaviour of coated polymer gears. Polymers, 13(20).
  • Sari, N., & Sinmazçelik, T. (2007). Erosive wear behaviour of carbon fibre/polyetherimide composites under low particle speed. Materials and Design, 28(1), 351–355.
  • Seeholzer, L., Kneubühler, F., Grossenbacher, F., & Wegener, K. (2021). Tool wear and spring back analysis in orthogonal machining unidirectional CFRP with respect to tool geometry and fibre orientation. International Journal of Advanced Manufacturing Technology, 115(9–10), 2905–2928.
  • Thomas, C., Borges, P. H. R., Panzera, T. H., Cimentada, A., & Lombillo, I. (2014). Epoxy composites containing CFRP powder wastes. Composites Part B: Engineering, 59, 260–268.
There are 22 citations in total.

Details

Primary Language English
Subjects Aerospace Engineering
Journal Section Research Articles
Authors

Mustafa Gök 0000-0002-8214-2250

Yılmaz Küçük 0000-0002-7559-8794

Murat Pehlivanlı 0009-0007-3819-0160

Azmi Erdoğan 0000-0001-8337-7919

Early Pub Date June 30, 2023
Publication Date July 25, 2023
Submission Date April 29, 2023
Acceptance Date June 6, 2023
Published in Issue Year 2023

Cite

APA Gök, M., Küçük, Y., Pehlivanlı, M., Erdoğan, A. (2023). Investigation of Dry Sliding Wear Behavior of CFRP Composite Used in New Generation Aircraft Wings. Journal of Aviation, 7(2), 190-195. https://doi.org/10.30518/jav.1287618

Journal of Aviation - JAV 


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