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İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması

Yıl 2019, , 12 - 20, 15.12.2019
https://doi.org/10.17100/nevbiltek.633270

Öz

Bu
çalışmada, katkısız ultra yüksek moleküler ağırlıklı polietilen (UHMWPE) ile
ağırlıkça % 0,5 indirgenmiş grafen oksit (CRGO) katkılı kompozitin (CRGO/UHMWPE) kuru ve saf su ortamlarında aşınma
davranışları incelenmiştir. Morfolojik incelemeler CRGO dolgusunun polimer
matriksde homojen dağıldığını ve matriks dolgu etkileşiminin sağlandığını
göstermiştir. Kompozit örneğinin sürtünme katsayısı ve aşınma hızı hem kuru hem
de saf su ortamlarında CRGO ilavesi ile azalmıştır. Kuru aşınma ortamında kompozit
örneğinde plastik deformasyon ve yorulma aşınması baskınken, saf su ortamında
adhezif aşınma izleri görülmüştür.

Kaynakça

  • Referans1 Sánchez-Sánchez, X., Elias-Zuñiga, A., Hernández-Avila, M., “Processing of Ultra-High Molecular Weight Polyethylene/Graphite Composites by Ultrasonic Injection Moulding: Taguchi Optimization”, Ultrasonics – Sonochemistry, 44, 350–358, 2018.
  • Referans2 Tai, Z., Chen, Y., An, Y., Yan, X., Xue, Q., “Tribological Behavior of UHMWPE Reinforced With Graphene Oxide Nanosheets”, Tribology Letters, 46, 1, 55–63, 2012.
  • Referans3 Salari, M., Taromsari, S. M., Bagheri, R., Faghihi Sani, M. A., “Improved Wear, Mechanical, and Biological Behavior of UHMWPE-HAp-Zirconia Hybrid Nanocomposites With a Prospective Application in Total Hip Joint Replacement”, Journal of Materials Science, 5, 54, 4259–4276, 2009.
  • Referans4 Pang, W., Ni, Z., Chen, G., Huang, G., Huang, H., Zhao, Y., “Mechanical and Thermal Properties of Graphene Oxide/Ultrahigh Molecular Weight Polyethylene Nanocomposites”, RSC Advances, 5, 77, 63063-63072, 2015.
  • Referans5 Mindivan, F., Goktas, M., Green Synthesis of Reduced Graphene Oxide (RGNO) / Polyvinylchloride (PVC) Composites and Their Structural Characterization, Materials Research Proceedings, 8, 143-151, 2018.
  • Referans6 Mohammed, A. S., Ali, A., Nesar, M., “Evaluation of Tribological Properties of Organoclay Reinforced UHMWPE Nanocomposites”, Journal of Tribology, 139, 1-6, 2017.
  • Referans7 Ahmad, M., Uzir Wahit, M., Rafiq Abdul Kadir, M., Zaman Mohd Dahlan, K.., “Mechanical, Rheological, and Bioactivity Properties of Ultra High-Molecular-Weight Polyethylene Bioactive Composites Containing Polyethylene Glycol and Hydroxyapatite”, The Scientific World Journal, 2012, 1-13, 2012.
  • Referans8 Bahrami, H., Ramazani S. A., A., Kheradmand, A., Shafiee, M., Baniasadi, H., “Investigation of Thermomechanical Properties of UHMWPE/Graphene Oxide Nanocomposites Prepared by In Situ Ziegler–Natta Polymerization”, Advances in Polymer Technology, 0, 1-7, 2015.
  • Referans9 Peng Chang, B., Akil, H. Md., Nasir, R. Bt., Khan, A., “Optimization on Wear Performance of UHMWPE Composites Using Response Surface Methodology”, Tribology International, 88, 252–262, 2015.
  • Referans10 Lusitâneo Pier Macuvele, D., Collaa, G., Cescaa, K., Ribeiroa, L.F.B., Costad, C.E., Nonesa, J., Breitenbachd, E.R., Portoa, L.M., Soaresa, C., Antônio Fioric, M., Gracher Riellaa, H., “UHMWPE/HA Biocomposite Compatibilized by Organophilic Montmorillonite: An evaluation of The Mechanical-Tribological Properties and Its Hemocompatibility and Performance in Simulated Blood Fluid”, Materials Science & Engineering C, 100, 411–423, 2019.
  • Referans11 Meng, L., Li, W., Ma, R., Huang, M., Wang, J., Luo, Y., Wang, J., Xia, K., “Long UHMWPE Fibers Reinforced Rigid Polyurethane Composites: An Investigation in Mechanical Properties”, European Polymer Journal, 105, 55–60, 2018.
  • Referans12 Pang, W., Ni, Z., Wu, J., Zhao, Y., “Investigation of Tribological Properties of Graphene Oxide Reinforced Ultrahigh Molecular Weight Polyethylene Under Artificial Seawater Lubricating Condition”, Applied Surface Science, 434, 273–282, 2018.
  • Referans13 Golchin, A., Wikner, A., Emami, N., “An Investigation into Tribological Behaviour of Multi-Walled Carbon Nanotube/Graphene Oxide Reinforced UHMWPE in Water Lubricated Contacts”, Tribology International, 95, 156–161, 2016.
  • Referans14 Chang, T., Yuan, C., Guo, Z., “Tribological Behavior of Aged UHMWPE Under Water-Lubricated Condition”, Tribology International, 1-24, 2018.
  • Referans15 Guezmil, M., Bensalah, W., Mezlini, S., “Effect of Bio-Lubrication on The Tribological Behavior of UHMWPE Against M30NW Stainless Steel”, Tribology International, 94, 550–559, 2016.

A Comparative Investigation of The Wear Behavior of Reduced Graphene Oxide Filled UHMWPE Composite Under Dry and Water Environments

Yıl 2019, , 12 - 20, 15.12.2019
https://doi.org/10.17100/nevbiltek.633270

Öz

Ultra-high molecular weight
polyethylene (UHMWPE) is the most relevant materials for hip and knee
replacements due to its bio-compatibility and excellent properties. In this
study, graphene with its low density and lubricating properties was used as
filler and was incorporated into UHMWPE matrix to strengthen the performance of
composite. Wear behaviors of pure UHMWPE and composite (CRGO/UHMWPE) filled
with 0,5 wt.% reduced graphene oxide (CRGO) under dry and distilled water
environments were studied. UHMWPE and CRGO were mixed with the liquid phase
ultrasonic dispersion and composite sample were produced by hot press molding.
FTIR analysis results showed that there was interaction between the filler and
polymer matrix, XRD analysis confirmed the modification of crystalline
structure of UHMWPE and SEM-EDS elemental mapping results of composite
indicated that oxygen was uniformly distributed in the polymer matrix. The
coefficient of friction and wear rate of composite sample decreased under both
dry and distilled water conditions by the addition of CRGO filler. Because
lubrication capability of both graphene and distilled water had a significantly
effect on friction and wear behavior of composite sample.  Plastic deformation and fatigue wear were
dominant for the composite sample under dry sliding but adhesive wear tracs
were observed under distilled water conditions.

Kaynakça

  • Referans1 Sánchez-Sánchez, X., Elias-Zuñiga, A., Hernández-Avila, M., “Processing of Ultra-High Molecular Weight Polyethylene/Graphite Composites by Ultrasonic Injection Moulding: Taguchi Optimization”, Ultrasonics – Sonochemistry, 44, 350–358, 2018.
  • Referans2 Tai, Z., Chen, Y., An, Y., Yan, X., Xue, Q., “Tribological Behavior of UHMWPE Reinforced With Graphene Oxide Nanosheets”, Tribology Letters, 46, 1, 55–63, 2012.
  • Referans3 Salari, M., Taromsari, S. M., Bagheri, R., Faghihi Sani, M. A., “Improved Wear, Mechanical, and Biological Behavior of UHMWPE-HAp-Zirconia Hybrid Nanocomposites With a Prospective Application in Total Hip Joint Replacement”, Journal of Materials Science, 5, 54, 4259–4276, 2009.
  • Referans4 Pang, W., Ni, Z., Chen, G., Huang, G., Huang, H., Zhao, Y., “Mechanical and Thermal Properties of Graphene Oxide/Ultrahigh Molecular Weight Polyethylene Nanocomposites”, RSC Advances, 5, 77, 63063-63072, 2015.
  • Referans5 Mindivan, F., Goktas, M., Green Synthesis of Reduced Graphene Oxide (RGNO) / Polyvinylchloride (PVC) Composites and Their Structural Characterization, Materials Research Proceedings, 8, 143-151, 2018.
  • Referans6 Mohammed, A. S., Ali, A., Nesar, M., “Evaluation of Tribological Properties of Organoclay Reinforced UHMWPE Nanocomposites”, Journal of Tribology, 139, 1-6, 2017.
  • Referans7 Ahmad, M., Uzir Wahit, M., Rafiq Abdul Kadir, M., Zaman Mohd Dahlan, K.., “Mechanical, Rheological, and Bioactivity Properties of Ultra High-Molecular-Weight Polyethylene Bioactive Composites Containing Polyethylene Glycol and Hydroxyapatite”, The Scientific World Journal, 2012, 1-13, 2012.
  • Referans8 Bahrami, H., Ramazani S. A., A., Kheradmand, A., Shafiee, M., Baniasadi, H., “Investigation of Thermomechanical Properties of UHMWPE/Graphene Oxide Nanocomposites Prepared by In Situ Ziegler–Natta Polymerization”, Advances in Polymer Technology, 0, 1-7, 2015.
  • Referans9 Peng Chang, B., Akil, H. Md., Nasir, R. Bt., Khan, A., “Optimization on Wear Performance of UHMWPE Composites Using Response Surface Methodology”, Tribology International, 88, 252–262, 2015.
  • Referans10 Lusitâneo Pier Macuvele, D., Collaa, G., Cescaa, K., Ribeiroa, L.F.B., Costad, C.E., Nonesa, J., Breitenbachd, E.R., Portoa, L.M., Soaresa, C., Antônio Fioric, M., Gracher Riellaa, H., “UHMWPE/HA Biocomposite Compatibilized by Organophilic Montmorillonite: An evaluation of The Mechanical-Tribological Properties and Its Hemocompatibility and Performance in Simulated Blood Fluid”, Materials Science & Engineering C, 100, 411–423, 2019.
  • Referans11 Meng, L., Li, W., Ma, R., Huang, M., Wang, J., Luo, Y., Wang, J., Xia, K., “Long UHMWPE Fibers Reinforced Rigid Polyurethane Composites: An Investigation in Mechanical Properties”, European Polymer Journal, 105, 55–60, 2018.
  • Referans12 Pang, W., Ni, Z., Wu, J., Zhao, Y., “Investigation of Tribological Properties of Graphene Oxide Reinforced Ultrahigh Molecular Weight Polyethylene Under Artificial Seawater Lubricating Condition”, Applied Surface Science, 434, 273–282, 2018.
  • Referans13 Golchin, A., Wikner, A., Emami, N., “An Investigation into Tribological Behaviour of Multi-Walled Carbon Nanotube/Graphene Oxide Reinforced UHMWPE in Water Lubricated Contacts”, Tribology International, 95, 156–161, 2016.
  • Referans14 Chang, T., Yuan, C., Guo, Z., “Tribological Behavior of Aged UHMWPE Under Water-Lubricated Condition”, Tribology International, 1-24, 2018.
  • Referans15 Guezmil, M., Bensalah, W., Mezlini, S., “Effect of Bio-Lubrication on The Tribological Behavior of UHMWPE Against M30NW Stainless Steel”, Tribology International, 94, 550–559, 2016.
Toplam 15 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Diğer Bölümler
Yazarlar

Alime Çolak Bu kişi benim 0000-0002-1311-8644

Ferda Mindivan 0000-0002-6046-2456

Meryem Göktaş 0000-0003-1583-8300

Yayımlanma Tarihi 15 Aralık 2019
Kabul Tarihi 4 Aralık 2019
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

APA Çolak, A., Mindivan, F., & Göktaş, M. (2019). İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması. Nevşehir Bilim Ve Teknoloji Dergisi, 8, 12-20. https://doi.org/10.17100/nevbiltek.633270
AMA Çolak A, Mindivan F, Göktaş M. İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması. Nevşehir Bilim ve Teknoloji Dergisi. Aralık 2019;8:12-20. doi:10.17100/nevbiltek.633270
Chicago Çolak, Alime, Ferda Mindivan, ve Meryem Göktaş. “İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru Ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması”. Nevşehir Bilim Ve Teknoloji Dergisi 8, Aralık (Aralık 2019): 12-20. https://doi.org/10.17100/nevbiltek.633270.
EndNote Çolak A, Mindivan F, Göktaş M (01 Aralık 2019) İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması. Nevşehir Bilim ve Teknoloji Dergisi 8 12–20.
IEEE A. Çolak, F. Mindivan, ve M. Göktaş, “İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması”, Nevşehir Bilim ve Teknoloji Dergisi, c. 8, ss. 12–20, 2019, doi: 10.17100/nevbiltek.633270.
ISNAD Çolak, Alime vd. “İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru Ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması”. Nevşehir Bilim ve Teknoloji Dergisi 8 (Aralık 2019), 12-20. https://doi.org/10.17100/nevbiltek.633270.
JAMA Çolak A, Mindivan F, Göktaş M. İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması. Nevşehir Bilim ve Teknoloji Dergisi. 2019;8:12–20.
MLA Çolak, Alime vd. “İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru Ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması”. Nevşehir Bilim Ve Teknoloji Dergisi, c. 8, 2019, ss. 12-20, doi:10.17100/nevbiltek.633270.
Vancouver Çolak A, Mindivan F, Göktaş M. İndirgenmiş Grafen Oksit Katkılı UHMWPE Kompozitin Kuru ve Sulu Ortamlarda Aşınma Davranışlarının Karşılaştırılması. Nevşehir Bilim ve Teknoloji Dergisi. 2019;8:12-20.

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