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Karbon/epoksi ve E-cam/epoksi ile Onarılmış Çentikli Alüminyum 5754-H111 Charpy Darbe Tepkisi

Yıl 2021, Sayı: 22, 352 - 356, 31.01.2021
https://doi.org/10.31590/ejosat.844824

Öz

Bu çalışmada, üç farklı çentik derinliğine sahip alüminyum levhalar, karbon/epoksi ve e-cam/epoksi kompozitleri ile tamir edilmiş ve Charpy darbe tepkileri deneysel olarak araştırılmıştır. Yama melzemeleri [0/45/-45] oryantasyonlu üç eksenli kumaşlar ile takviyelendirimiştir. Bu üç eksenli kumaşlar üst üste konumlanırılarak [90/45/-45/45/-45/90] oryantasyonlu kompozit laminalar oluşturulmuştur. Laminaların oluşturulmasında el yatırması tekniği kullanılmıştır. El yatırması ile ıslatılan takviye kumaşları 100 °C ve 7 bar basınç altında kürleştirilmiştir. Hem alüminyum hemde onarım elemanlarının boyutlandırılmasında su jeti kullanılmıştır. Boyutlandırılmış alüminyum ve onarım elemanları, çift bileşenli metil metakrilat yapıştırıcı ile tek taraflı olarak birbirine yapıştırılmıştır. Deneysel aşamada öncelikle kompozitlerin bazı mekanik özellikleri belirlenmiştir. Sonrasında üç farklı çentik boyundaki (3mm, 5mm, 7mm) onarılmış ve onarılmamış alüminyum levhaların enerji emme miktarları Charpy çentik darbe deneyleri ile tespit edilmiştir. Ayrıca kompozit yamaların Taramalı Elektron Mikroskobu (SEM) analizi yapılmıştır.

Kaynakça

  • Tajally, M., Huda, Z., Masjuki, H.H., (2010) A comparative analysis of tensile and impact-toughness behavior of cold-worked and annealed 7075 aluminum alloy, International Journal of Impact Engineering, 37, 425-432.
  • Wallin, K., (2020) A simple fracture mechanics based Charpy-V impact energy criterion for plastic collapse, Engineering Fracture Mechanics, 237, 1-11.
  • Khalili, S.M.R., Ghadjar, R., Sadeghinia, M., Mittal, R. K., (2009) An experimental study on the Charpy response of cracked aluminum plates repaired with GFRP or CFRP composite patches, Composite Structures, 89, 270-279.
  • Papanikos, P., Tserpes, K.I., Pantelakis, S.P., (2007) Initiation and progression of composite patch debonding in adhesively repaired cracked metallic sheets. Composite Structures, 81, 303-311.
  • Dharaj, R., Venkateshwaran, N., Chenthil, M., Natarajan, M.S., Santhanam, V., Baskar, S., (2020) Experimental investigation on the mechanical properties of glass fiber with perforated aluminum sheet reinforced epoxy composite. doi.org/10.1016/j.matpr.2020.07.456.
  • Torabi, A.R., Berto, F., Razavi, S.M.J., (2018) Ductile failure prediction of thin notched aluminum plates subjected to combined tension-shear loading. Theoretical and Applied Fracture Mechanics, 97, 280-288.
  • Pradhan, S.S., Mishra, U., Biswal, S.K., (2020) Experimental study on mechanical performance of cracked aluminum alloy repaired with composite patch, Materials Today: Proceedings, 26, 2676-2680.
  • Sadrjarghouyeh, J., Barati, E., (2015) Fracture assessment of inclined U-notches made of aluminum 2014-T6 under prevalent Mode II loading by means of J-integral, Materials and Design, 84, 411-417.
  • Htoo, A.T., Miyashita, Y., Otsuka, Y., Mutoh, Y., Sakurai, S., (2016) Modeling the effect of notch geometry on the deformation of a strongly anisotropic aluminum alloy, Int. J. Fatigue, 88, 19-28.
  • Cazacu, O., Chandola, N., Revil-Baudard, B., Frodal, B.H., Børvik, T., Hopperstad, O.S., (2020) Modeling the effect of notch geometry on the deformation of a strongly anisotropic aluminum alloy, European Journal of Mechanics/A Solids, 82.
  • Papuga, J., Karkulín, A., Hanžl, O., Lutovinov, M., (2019) Comparison of several methods for the notch effect quantification on specimens from 2124-T851 aluminum alloy”, Procedia Structural Integrity, 19, 405-414.
  • Elahi, M.A., Shabestari, S.G., (2016) Effect of various melt and heat treatment conditions on impact toughness of A356 aluminum alloy, Trans. Nonferrous Met. Soc. China, 26, 956-965,.
  • Laban, O., and Mahdi, E., (2017) Enhancing mode I inter-laminar fracture toughness of aluminum/fiberglass fiber-metal laminates by combining surface pre-treatments, International Journal of Adhesion and Adhesives, 78, 234-239.

Charpy Impact Response of Notched Aluminum 5754-H111 of Repaired with Carbon/Epoxy and E-Glass/Epoxy

Yıl 2021, Sayı: 22, 352 - 356, 31.01.2021
https://doi.org/10.31590/ejosat.844824

Öz

I this study, aluminum sheets with three different notch depths were repaired with carbon/epoxy and e-glass/epoxy composites and than were investigated experimentally for their response to Charpy impact. [90/45/-45] oriented triaxial fabrics were used in patch reinforcement materials. Composite laminates were performed in [90/45/-45/45/-45/90] orientation by placing these three axial fabrics on top each other. Hand lay-up technique was used in the creation of laminated composites. The reinforcement fabrics wetted by hand lay-up were cured by hot molding at 100 °C and 7 bar pressure. Water jet was used for sizing both aluminum and repair elements. The sized aluminum and repair elements were glued to each other as one-side with a double component methyl methacrylate adhesive. In the experimental stage, some mechanical properties of the composites were determined first. Afterwords, of the aluminum plates as repaired and unrepaired in three different notch lengths (3mm, 5mm, 7mm), energy absorption was determined by conducting Charpy notch impact tests. In addition Scanning Electron Microscope (SEM) analysis of composite patches were performed..

Kaynakça

  • Tajally, M., Huda, Z., Masjuki, H.H., (2010) A comparative analysis of tensile and impact-toughness behavior of cold-worked and annealed 7075 aluminum alloy, International Journal of Impact Engineering, 37, 425-432.
  • Wallin, K., (2020) A simple fracture mechanics based Charpy-V impact energy criterion for plastic collapse, Engineering Fracture Mechanics, 237, 1-11.
  • Khalili, S.M.R., Ghadjar, R., Sadeghinia, M., Mittal, R. K., (2009) An experimental study on the Charpy response of cracked aluminum plates repaired with GFRP or CFRP composite patches, Composite Structures, 89, 270-279.
  • Papanikos, P., Tserpes, K.I., Pantelakis, S.P., (2007) Initiation and progression of composite patch debonding in adhesively repaired cracked metallic sheets. Composite Structures, 81, 303-311.
  • Dharaj, R., Venkateshwaran, N., Chenthil, M., Natarajan, M.S., Santhanam, V., Baskar, S., (2020) Experimental investigation on the mechanical properties of glass fiber with perforated aluminum sheet reinforced epoxy composite. doi.org/10.1016/j.matpr.2020.07.456.
  • Torabi, A.R., Berto, F., Razavi, S.M.J., (2018) Ductile failure prediction of thin notched aluminum plates subjected to combined tension-shear loading. Theoretical and Applied Fracture Mechanics, 97, 280-288.
  • Pradhan, S.S., Mishra, U., Biswal, S.K., (2020) Experimental study on mechanical performance of cracked aluminum alloy repaired with composite patch, Materials Today: Proceedings, 26, 2676-2680.
  • Sadrjarghouyeh, J., Barati, E., (2015) Fracture assessment of inclined U-notches made of aluminum 2014-T6 under prevalent Mode II loading by means of J-integral, Materials and Design, 84, 411-417.
  • Htoo, A.T., Miyashita, Y., Otsuka, Y., Mutoh, Y., Sakurai, S., (2016) Modeling the effect of notch geometry on the deformation of a strongly anisotropic aluminum alloy, Int. J. Fatigue, 88, 19-28.
  • Cazacu, O., Chandola, N., Revil-Baudard, B., Frodal, B.H., Børvik, T., Hopperstad, O.S., (2020) Modeling the effect of notch geometry on the deformation of a strongly anisotropic aluminum alloy, European Journal of Mechanics/A Solids, 82.
  • Papuga, J., Karkulín, A., Hanžl, O., Lutovinov, M., (2019) Comparison of several methods for the notch effect quantification on specimens from 2124-T851 aluminum alloy”, Procedia Structural Integrity, 19, 405-414.
  • Elahi, M.A., Shabestari, S.G., (2016) Effect of various melt and heat treatment conditions on impact toughness of A356 aluminum alloy, Trans. Nonferrous Met. Soc. China, 26, 956-965,.
  • Laban, O., and Mahdi, E., (2017) Enhancing mode I inter-laminar fracture toughness of aluminum/fiberglass fiber-metal laminates by combining surface pre-treatments, International Journal of Adhesion and Adhesives, 78, 234-239.
Toplam 13 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Berkant Dindar 0000-0003-1215-3621

İnan Ağır 0000-0001-8845-1452

Yayımlanma Tarihi 31 Ocak 2021
Yayımlandığı Sayı Yıl 2021 Sayı: 22

Kaynak Göster

APA Dindar, B., & Ağır, İ. (2021). Charpy Impact Response of Notched Aluminum 5754-H111 of Repaired with Carbon/Epoxy and E-Glass/Epoxy. Avrupa Bilim Ve Teknoloji Dergisi(22), 352-356. https://doi.org/10.31590/ejosat.844824