Araştırma Makalesi
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Effect of Gamma Radiation on Mechanical Properties of Rape Reinforced Polypropylene Composite Material

Yıl 2021, Cilt: 7 Sayı: 3, 490 - 499, 31.12.2021
https://doi.org/10.29132/ijpas.996361

Öz

In this research, the mechanical properties of the dried and powdered rape reinforced polypropylene matrix composite material such as tensile, three-point bending and Izod impact strengths were experimentally investigated. Initially, samples whose matrix material was polypropylene and containing 5%, 10% and 20% by weight rape were produced using extrusion and plastic injection techniques. Some of the samples produced were exposed to gamma irradiation to strengthen the physical bonding mechanism between the matrix and the filling material. In this direction, the changes in the mechanical properties of the samples before and after gamma irradiation were investigated. As a result of the tests, it was observed that the tensile and Izod impact strengths decreased with the increase in the amount of rape used as reinforcement, while the bending strength increased slightly. It was determined that the tensile, bending and Izod impact strengths of the samples exposed to gamma irradiation increased compared to the samples that were not exposed to gamma irradiation.

Kaynakça

  • Agrebi F., Hammami H., Asim M., Jawaid M., Kallel A. (2020). Impact of silane treatment on the dielectric properties of pineapple leaf/kenaf fiber reinforced phenolic composites. Journal of Composite Materials, 54 (7), 937-946.
  • Alothman O.Y., Alrashed M.M., Anis A., Naveen J., Jawaid M. (2020). Characterization of date palm fiber-reinforced different polypropylene matrices. Polymers, 12 (3), 597.
  • Aruchamy K., Subramani S.P., Palaniappan S.K., Sethuraman , Kaliyannan G.V. (2020). Study on mechanical characteristics of woven cotton/bamboo hybrid reinforced composite laminates. Journal of Materials Research and Technology, 9 (1), 718-726.
  • Dogan A., Arman Y. (2018). The effect of hygrothermal aging on the glass and carbon reinforced epoxy composites for different stacking sequences. Mechanics, 24 (1), 19-25.
  • Fiore V., Di Bella G., Valenza A. (2015). The effect of alkaline treatment on mechanical properties of kenaf fibers and their epoxy composites. Composites Part B: Engineering, 68, 14-21.
  • Girones J., Méndez J.A., Boufi S., Vilaseca F., Mutjé P. (2007). Effect of silane coupling agents on the properties of pine fibers/polypropylene composites. Journal of Applied Polymer Science, 103 (6), 3706-3717.
  • Jariwala H., Jain P. (2019). A review on mechanical behavior of natural fiber reinforced polymer composites and its applications. Journal of Reinforced Plastics and Composites, 38 (10), 441-453.
  • Kandas, H., Özdemir O. (2021). Çam ve Meşe Palamudu Tozu Takviyeli Kompozitlerin Mekanik Özelliklerinin İncelenmesi. Dokuz Eylül Üniversitesi Mühendislik Fakültesi Fen ve Mühendislik Dergisi, 23 (67), 147-155.
  • Kenned J.J., Sankaranarayanasamy K., Binoj J.S., Chelliah S.K. (2020). Thermo-mechanical and morphological characterization of needle punched non-woven banana fiber reinforced polymer composites. Composites Science and Technology, 185, 107890.
  • Kısmet Y., Dogan A. (2021). Characterization of the mechanical and thermal properties of rape short natural-fiber reinforced thermoplastic composites. Iran Polym Journal https://doi.org/10.1007/s13726-021-00988-9
  • Koohestani B., Darban A.K., Mokhtari P., Yilmaz E. & Darezereshki, E. (2019). Comparison of different natural fiber treatments: a literature review. International Journal of Environmental Science and Technology, 16(1), 629-642.
  • Madenci E., Ozutok A. (2020). Variational approximate for high order bending analysis of laminated composite plates. Structural Engineering and Mechanics, 73(1), 97-108.
  • Madenci E., Özkılıç Y.O., Gemi L. (2020). Theoretical investigation on static analysis of pultruded GFRP composite beams. Academic Platform Journal of Engineering and Science, 8(3), 483-490.
  • Madenci E., Özkılıç Y.O., Gemi, L. (2020). Experimental and theoretical investigation on flexure performance of pultruded GFRP composite beams with damage analyses. Composite Structures, 242, 112162.
  • Ovalı S., Sancak E., (2020). Investigation of mechanical properties of jute fiber reinforced low density polyethylene composites. Journal of Natural Fibers, 1-18.
  • Özkılıç Y.O., Madenci E.,Gemi L. (2020). Tensile and compressive behaviors of the pultruded GFRP lamina. Turkish Journal of Engineering, 4(4), 169-175.
  • Simimol A.S., Sebastian S., Ravindranath D.A., Jacob A. (2020). Enhancement of Physical, Mechanicaland Morphological Properties of Coir by Mercerization and Acetylation. International Journal of Innovative Science and Research Technology, 5, 530-535.
  • Singh Y., Singh J., Sharma S., Lam T.D., Nguyen D.N. (2020). Fabrication and characterization of coir/carbon-fiber reinforced epoxy based hybrid composite for helmet shells and sports-good applications: influence of fiber surface modifications on the mechanical, thermal and morphological properties. Journal of Materials Research and Technology, 9 (6), 15593-15603.
  • Sreekala M.S., Kumaran M.G., Joseph S., Jacob M., Thomas S. (2000). Oil palm fibre reinforced phenol formaldehyde composites: influence of fibre surface modifications on the mechanical performance. Applied Composite Materials, 7(5), 295-329.
  • Vigneshwaran S., Sundarakannan R., John K.M., Johnson R.D.J., Prasath K.A., Ajith S., Arumugaprabu V., Uthayakumar M. (2020). Recent advancement in the natural fiber polymer composites: A comprehensive review. Journal of Cleaner Production, 227, 124109.
  • Wang A., Wang X., Xian G. (2020). Mechanical, low-velocity impact, and hydrothermal aging properties of flax/carbon hybrid composite plates. Polymer Testing, 90, 106759.
  • Widnyana A., Rian G., Surata W., Nindhia T.G.D. (2020). Tensile Properties of coconut Coir single fiber with alkali treatment and reinforcement effect on unsaturated polyester polymer. Materials Today: Proceedings, 22, 300-305.
  • Yetkin S., Çolak M. (2020). Grafit katkılı polipropilen kompozitlerin mekanik ve tribolojik özelliklerinin incelenmesi. El-Cezeri Journal of Science and Engineering, 7(2), 649-658.
  • Zaman H.U., Khan R.A. (2021). Acetylation used for natural fiber/polymer composites. Journal of Thermoplastic Composite Materials, 34 (1), 3-23.

Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi

Yıl 2021, Cilt: 7 Sayı: 3, 490 - 499, 31.12.2021
https://doi.org/10.29132/ijpas.996361

Öz

Bu araştırmada, kurutulmuş ve toz haline getirilmiş kolza bitkisi takviyeli polipropilen matrisli kompozit malzemenin, çekme, üç nokta eğilme ve Izod darbe mukavemetleri gibi mekanik özellikleri deneysel olarak incelenmiştir. Öncelikle matris malzemesi polipropilen olan ve ağırlıkça %5, %10 ve %20 oranında kolza içeren numuneler ekstrüzyon ve plastik enjeksiyon teknikleri kullanılarak üretilmiştir. Üretilen malzemelerin bir kısmı gama ışımasına tabi tutularak matris ve dolgu malzemesi arasındaki fiziksel bağlanma mekanizması güçlendirilmeye çalışılmıştır. Bu doğrultuda ışıma öncesi ve ışıma sonrası numunelerin mekanik özelliklerindeki değişimler araştırıldı. Yapılan testler sonucunda, çekme ve Izod darbe mukavemetleri, takviye olarak kullanılan kolza miktarının artması ile düştüğü, eğilme mukavemetinin ise arttığı gözlenmiştir. Gama ışımasına maruz bırakılan numunelerin çekme, eğilme ve Izod darbe mukavemetlerinde gama ışımasına maruz bırakılmamış numunelere göre artış meydana geldiği tespit edildi.

Kaynakça

  • Agrebi F., Hammami H., Asim M., Jawaid M., Kallel A. (2020). Impact of silane treatment on the dielectric properties of pineapple leaf/kenaf fiber reinforced phenolic composites. Journal of Composite Materials, 54 (7), 937-946.
  • Alothman O.Y., Alrashed M.M., Anis A., Naveen J., Jawaid M. (2020). Characterization of date palm fiber-reinforced different polypropylene matrices. Polymers, 12 (3), 597.
  • Aruchamy K., Subramani S.P., Palaniappan S.K., Sethuraman , Kaliyannan G.V. (2020). Study on mechanical characteristics of woven cotton/bamboo hybrid reinforced composite laminates. Journal of Materials Research and Technology, 9 (1), 718-726.
  • Dogan A., Arman Y. (2018). The effect of hygrothermal aging on the glass and carbon reinforced epoxy composites for different stacking sequences. Mechanics, 24 (1), 19-25.
  • Fiore V., Di Bella G., Valenza A. (2015). The effect of alkaline treatment on mechanical properties of kenaf fibers and their epoxy composites. Composites Part B: Engineering, 68, 14-21.
  • Girones J., Méndez J.A., Boufi S., Vilaseca F., Mutjé P. (2007). Effect of silane coupling agents on the properties of pine fibers/polypropylene composites. Journal of Applied Polymer Science, 103 (6), 3706-3717.
  • Jariwala H., Jain P. (2019). A review on mechanical behavior of natural fiber reinforced polymer composites and its applications. Journal of Reinforced Plastics and Composites, 38 (10), 441-453.
  • Kandas, H., Özdemir O. (2021). Çam ve Meşe Palamudu Tozu Takviyeli Kompozitlerin Mekanik Özelliklerinin İncelenmesi. Dokuz Eylül Üniversitesi Mühendislik Fakültesi Fen ve Mühendislik Dergisi, 23 (67), 147-155.
  • Kenned J.J., Sankaranarayanasamy K., Binoj J.S., Chelliah S.K. (2020). Thermo-mechanical and morphological characterization of needle punched non-woven banana fiber reinforced polymer composites. Composites Science and Technology, 185, 107890.
  • Kısmet Y., Dogan A. (2021). Characterization of the mechanical and thermal properties of rape short natural-fiber reinforced thermoplastic composites. Iran Polym Journal https://doi.org/10.1007/s13726-021-00988-9
  • Koohestani B., Darban A.K., Mokhtari P., Yilmaz E. & Darezereshki, E. (2019). Comparison of different natural fiber treatments: a literature review. International Journal of Environmental Science and Technology, 16(1), 629-642.
  • Madenci E., Ozutok A. (2020). Variational approximate for high order bending analysis of laminated composite plates. Structural Engineering and Mechanics, 73(1), 97-108.
  • Madenci E., Özkılıç Y.O., Gemi L. (2020). Theoretical investigation on static analysis of pultruded GFRP composite beams. Academic Platform Journal of Engineering and Science, 8(3), 483-490.
  • Madenci E., Özkılıç Y.O., Gemi, L. (2020). Experimental and theoretical investigation on flexure performance of pultruded GFRP composite beams with damage analyses. Composite Structures, 242, 112162.
  • Ovalı S., Sancak E., (2020). Investigation of mechanical properties of jute fiber reinforced low density polyethylene composites. Journal of Natural Fibers, 1-18.
  • Özkılıç Y.O., Madenci E.,Gemi L. (2020). Tensile and compressive behaviors of the pultruded GFRP lamina. Turkish Journal of Engineering, 4(4), 169-175.
  • Simimol A.S., Sebastian S., Ravindranath D.A., Jacob A. (2020). Enhancement of Physical, Mechanicaland Morphological Properties of Coir by Mercerization and Acetylation. International Journal of Innovative Science and Research Technology, 5, 530-535.
  • Singh Y., Singh J., Sharma S., Lam T.D., Nguyen D.N. (2020). Fabrication and characterization of coir/carbon-fiber reinforced epoxy based hybrid composite for helmet shells and sports-good applications: influence of fiber surface modifications on the mechanical, thermal and morphological properties. Journal of Materials Research and Technology, 9 (6), 15593-15603.
  • Sreekala M.S., Kumaran M.G., Joseph S., Jacob M., Thomas S. (2000). Oil palm fibre reinforced phenol formaldehyde composites: influence of fibre surface modifications on the mechanical performance. Applied Composite Materials, 7(5), 295-329.
  • Vigneshwaran S., Sundarakannan R., John K.M., Johnson R.D.J., Prasath K.A., Ajith S., Arumugaprabu V., Uthayakumar M. (2020). Recent advancement in the natural fiber polymer composites: A comprehensive review. Journal of Cleaner Production, 227, 124109.
  • Wang A., Wang X., Xian G. (2020). Mechanical, low-velocity impact, and hydrothermal aging properties of flax/carbon hybrid composite plates. Polymer Testing, 90, 106759.
  • Widnyana A., Rian G., Surata W., Nindhia T.G.D. (2020). Tensile Properties of coconut Coir single fiber with alkali treatment and reinforcement effect on unsaturated polyester polymer. Materials Today: Proceedings, 22, 300-305.
  • Yetkin S., Çolak M. (2020). Grafit katkılı polipropilen kompozitlerin mekanik ve tribolojik özelliklerinin incelenmesi. El-Cezeri Journal of Science and Engineering, 7(2), 649-658.
  • Zaman H.U., Khan R.A. (2021). Acetylation used for natural fiber/polymer composites. Journal of Thermoplastic Composite Materials, 34 (1), 3-23.
Toplam 24 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Akar Doğan 0000-0002-6788-1629

Yılmaz Kısmet 0000-0003-3145-6214

Erken Görünüm Tarihi 27 Aralık 2021
Yayımlanma Tarihi 31 Aralık 2021
Gönderilme Tarihi 16 Eylül 2021
Kabul Tarihi 1 Kasım 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 7 Sayı: 3

Kaynak Göster

APA Doğan, A., & Kısmet, Y. (2021). Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi. International Journal of Pure and Applied Sciences, 7(3), 490-499. https://doi.org/10.29132/ijpas.996361
AMA Doğan A, Kısmet Y. Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi. International Journal of Pure and Applied Sciences. Aralık 2021;7(3):490-499. doi:10.29132/ijpas.996361
Chicago Doğan, Akar, ve Yılmaz Kısmet. “Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi”. International Journal of Pure and Applied Sciences 7, sy. 3 (Aralık 2021): 490-99. https://doi.org/10.29132/ijpas.996361.
EndNote Doğan A, Kısmet Y (01 Aralık 2021) Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi. International Journal of Pure and Applied Sciences 7 3 490–499.
IEEE A. Doğan ve Y. Kısmet, “Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi”, International Journal of Pure and Applied Sciences, c. 7, sy. 3, ss. 490–499, 2021, doi: 10.29132/ijpas.996361.
ISNAD Doğan, Akar - Kısmet, Yılmaz. “Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi”. International Journal of Pure and Applied Sciences 7/3 (Aralık 2021), 490-499. https://doi.org/10.29132/ijpas.996361.
JAMA Doğan A, Kısmet Y. Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi. International Journal of Pure and Applied Sciences. 2021;7:490–499.
MLA Doğan, Akar ve Yılmaz Kısmet. “Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi”. International Journal of Pure and Applied Sciences, c. 7, sy. 3, 2021, ss. 490-9, doi:10.29132/ijpas.996361.
Vancouver Doğan A, Kısmet Y. Gama Işımasının Kolza Takviyeli Polipropilen Kompozit Malzemenin Mekanik Özellikleri Üzerindeki Etkisi. International Journal of Pure and Applied Sciences. 2021;7(3):490-9.

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