Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2020, , 965 - 972, 01.10.2020
https://doi.org/10.16984/saufenbilder.731914

Öz

Proje Numarası

Project Number: 2017-50-01-083

Kaynakça

  • J. Mens and Jee. De A., “Friction and wear behavior of 18 polymers in contact with steel in environments of air and water,” Wear, vol. 149, pp. 255-268, 1991.
  • S.Yılmaz, A. E. Şahin, T. Yılmaz and T. Sınmazçelik., “Pomza tozu ve karbon elyaf takviyeli polifenilen sülfid (PPS) kompozitlerin adhezif aşınma davranışının incelenmesi,” International Participation III. Ege Composite Materials Symposium, pp.34-36, Turkey, Kuşadası, 2015.
  • M. Sumer, H. Unal and A. Mimaroglu, “Evaluation of tribological behaviour of peek composite under dry sliding and water lubricated conditions,” Wear, vol. 265, pp. 1061-1065, 2008.
  • K. Friedrich and A. Voss, “Sliding and abrasive wear of short glass fibre reinforced PTFE composites,” Journal of materials science letters, vol. 5, pp. 1111-1114, 1986.
  • U.S. Tewari and J. Bijwe, “Tribological Behavior of Polyimides, Polyimides: Fundamentals and Applications,” M.K. Ghosh and K.L. Mittal, Ed., Marcel Dekker Inc., p 533–586, 1996.
  • N.S.M.El-Tayeb, F.Yousif and T.C.Yap, “An investigation on worn surfaces of chopped glass fibre reinforced polyester through SEM observations,” Tribology International, vol. 41, pp. 331-340, 2008.
  • R. Reinicke, K. Friedrich, W. Beier and C. Liebald, “Tribological properties of SiC and G-fiber reinforced glass matrix composites,” Wear, vol. 225-229, pp. 1315-1321, 1999.
  • C. Cai, “Evaluation of the friction and wear properties of PEI composites filled with glass and carbon fiber,” Advanced Materials Research, Vols. 299-300, pp 21-24, 2011
  • H. VOSS and K. FRIEDRICH, “On the Wear Behaviour of Short Fibre Reinforced Peek Composites,” Wear, vol. 116, pp. 1- 18, 1987.
  • Engineering plastics handbook / [edited by] James M. Margolis. McGraw-Hill Education: New York, Chicago, San Francisco, Athens, London, Madrid, Mexico City, Milan, New Delhi, Singapore, Sydney, Toronto, 2006 McGraw-Hill Education
  • L. Guo, H.Q. Zhu and Y.B. Sun, “Friction and wear studies on polyphenylene sulfide filled with a complex mixture,” Applied Mechanics and Materials, vol. 184-185, pp.1400-1403, 2012.
  • Z. Jiang, A. Schlarb, K. Friedrich and Z. Zhang, “Study on friction and wear behavior of PPS composites reinforced by short carbon fibers,” Article in composites science and technology, vol. 68, pp.124, 2009.
  • C. Lhymn, “Friction and wear of fiber reinforced PPS composites,” Advances in polymer technology, Vol. 7, No. 4, pp. 451-461, 1987.
  • H. Ünal, U. Şen and A. Mimaroğlu, “Dry sliding wear characteristics of some industrial polymers against steel counterface,” Tribology International, vol. 37, pp. 727-732, 2004.
  • A. Besnea, D. Trufasu, G. Andrei and L. Deleanu, “Wear behavior of polyphenylene sulfide composites during dry sliding tests,” Mechanical Testing and Diagnosis, vol. 2, pp. 15-20, 2012.
  • N.A. Emira, H.T. Mohamad and M. S. Tahat, "Stick-slip detection through measurement of near fieldnoise", Journal of Mechanical Engineering Research Vol. 3(3), pp. 96-102, 2011.
  • D.I. Chukov, A.A. Stepashkin, V.V. Tcherdyntsev, L.K. Olifirov and S.D. Kaloshkin, “Structure and properties of composites based on polyphenylene sulfide reinforced with Al-Cu-Fe quasicrystalline particles”, Journal of Thermoplastic Composite Materials, Vol. 31(7) pp. 882–895, 2018.
  • M.A. Abdulrehman, I.I. Marhoon and A.K AlKamal, “Studying the Effect of Reinforcement with Random Short Fibers and Temperature on the Impact Strength of an Epoxy/Polyurethane Blend Matrix”, International Conference on Materials Engineering and Science, IOP Conf. Series: Materials Science and Engineering, vol. 454, pp.1-6, 2018.
  • P. Sarkar, N. Modak and P. Sahoo, “Effect of Normal Load and Velocity on Continuous Sliding Friction and Wear Behavior of Woven Glass Fiber Reinforced Epoxy Composite,” Materials Today: Proceedings, vol. 4, pp. 3082–3092, 2017.
  • W. Wieleba, “The Mechanism of Tribological Wear of Thermoplastic Materials,” Archieves of Civil and Mechanical Engineering, Vol: VII, No:4, pp. 185-199, 2007.
  • V. Quaglini and P. Dubini, “Friction of Polymers Sliding on Smooth Surfaces,” Advances in Tribology, Volume 2011, pp. 1-8, 2011.
  • K.V. Shooter and D. Tabor, “The Frictional Properties of Plastics,” Proceedings of the Physical Society. Section B, Volume: 65, Number: 9, Pages: 661–671, 1952.
  • Kishore, P. Sampathkumaran, S. Seetharamu, S. Vynatheya, A. Murali, R.K. Kumar, SEM observations of the effects of velocity and load on the sliding wear characteristics of glass fabric–epoxy composites with different fillers, Wear, vol. 237, pp. 20–27, 2000.
  • A. Mimaroglu, H. Unal and T. Arda, “Friction and Wear Performance of Pure and Glass Fiber Reinforced Poly-Ether-Imide on Polymerand Steel Counter face Materials,” Wear, vol. 262, pp.1407–1413, 2007.
  • B. Suresha, G. Chandramohan, P. Samapthkumaran, S. Seetharamu and S. Vynatheya, “Friction and Wear Characteristics of Carbon Epoxy and Glass-Epoxy Woven Roving Fiber Composites,” J. of Rein. Plast. and Comp. vol. 25, pp. 771-782, 2006.
  • Surface Effects and Contact Mechanics X: Computational Methods and Experiments, WIT Transactions on Engineering Sciences, Vol 71, 2011 WIT Press, UK, page 223, Edited By: J.T.M. DE HOSSON, C.A. Brebbia, ISSN 1743-3533 (on-line)
  • H. Pıhtılı and N. Tosun, “Effect of load and speed on the wear behaviour of woven glass fabrics and aramid fibre-reinforced composites,” Wear, vol. 252, pp. 979–984, 2002.

Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites

Yıl 2020, , 965 - 972, 01.10.2020
https://doi.org/10.16984/saufenbilder.731914

Öz

The aim of this study is the experimental investigate of wear and friction properties of polyphenylene sulfide polymer (PPS) and 20%, 30% and 40% by weight glass fiber reinforced polyphenylene sulfide composites. Tribological tests were done by pin-on-disc test configuration. The disc material is AISI 1040 steel. 50, 100, 200 N normal loads and 1, 2, 3 m/s speeds were applied to the test specimens. Adding fiber decreased the friction values and specific wear rates. Furthermore, increasing load decreased the friction coefficient but increased the specific wear rate, although increasing sliding speed increased both friction and specific wear rate.

Destekleyen Kurum

Sakarya University Scientific Research Projects Coordination Unit

Proje Numarası

Project Number: 2017-50-01-083

Teşekkür

This study is supported by Sakarya University Scientific Research Projects Coordination Unit. Project Number: 2017-50-01-083.

Kaynakça

  • J. Mens and Jee. De A., “Friction and wear behavior of 18 polymers in contact with steel in environments of air and water,” Wear, vol. 149, pp. 255-268, 1991.
  • S.Yılmaz, A. E. Şahin, T. Yılmaz and T. Sınmazçelik., “Pomza tozu ve karbon elyaf takviyeli polifenilen sülfid (PPS) kompozitlerin adhezif aşınma davranışının incelenmesi,” International Participation III. Ege Composite Materials Symposium, pp.34-36, Turkey, Kuşadası, 2015.
  • M. Sumer, H. Unal and A. Mimaroglu, “Evaluation of tribological behaviour of peek composite under dry sliding and water lubricated conditions,” Wear, vol. 265, pp. 1061-1065, 2008.
  • K. Friedrich and A. Voss, “Sliding and abrasive wear of short glass fibre reinforced PTFE composites,” Journal of materials science letters, vol. 5, pp. 1111-1114, 1986.
  • U.S. Tewari and J. Bijwe, “Tribological Behavior of Polyimides, Polyimides: Fundamentals and Applications,” M.K. Ghosh and K.L. Mittal, Ed., Marcel Dekker Inc., p 533–586, 1996.
  • N.S.M.El-Tayeb, F.Yousif and T.C.Yap, “An investigation on worn surfaces of chopped glass fibre reinforced polyester through SEM observations,” Tribology International, vol. 41, pp. 331-340, 2008.
  • R. Reinicke, K. Friedrich, W. Beier and C. Liebald, “Tribological properties of SiC and G-fiber reinforced glass matrix composites,” Wear, vol. 225-229, pp. 1315-1321, 1999.
  • C. Cai, “Evaluation of the friction and wear properties of PEI composites filled with glass and carbon fiber,” Advanced Materials Research, Vols. 299-300, pp 21-24, 2011
  • H. VOSS and K. FRIEDRICH, “On the Wear Behaviour of Short Fibre Reinforced Peek Composites,” Wear, vol. 116, pp. 1- 18, 1987.
  • Engineering plastics handbook / [edited by] James M. Margolis. McGraw-Hill Education: New York, Chicago, San Francisco, Athens, London, Madrid, Mexico City, Milan, New Delhi, Singapore, Sydney, Toronto, 2006 McGraw-Hill Education
  • L. Guo, H.Q. Zhu and Y.B. Sun, “Friction and wear studies on polyphenylene sulfide filled with a complex mixture,” Applied Mechanics and Materials, vol. 184-185, pp.1400-1403, 2012.
  • Z. Jiang, A. Schlarb, K. Friedrich and Z. Zhang, “Study on friction and wear behavior of PPS composites reinforced by short carbon fibers,” Article in composites science and technology, vol. 68, pp.124, 2009.
  • C. Lhymn, “Friction and wear of fiber reinforced PPS composites,” Advances in polymer technology, Vol. 7, No. 4, pp. 451-461, 1987.
  • H. Ünal, U. Şen and A. Mimaroğlu, “Dry sliding wear characteristics of some industrial polymers against steel counterface,” Tribology International, vol. 37, pp. 727-732, 2004.
  • A. Besnea, D. Trufasu, G. Andrei and L. Deleanu, “Wear behavior of polyphenylene sulfide composites during dry sliding tests,” Mechanical Testing and Diagnosis, vol. 2, pp. 15-20, 2012.
  • N.A. Emira, H.T. Mohamad and M. S. Tahat, "Stick-slip detection through measurement of near fieldnoise", Journal of Mechanical Engineering Research Vol. 3(3), pp. 96-102, 2011.
  • D.I. Chukov, A.A. Stepashkin, V.V. Tcherdyntsev, L.K. Olifirov and S.D. Kaloshkin, “Structure and properties of composites based on polyphenylene sulfide reinforced with Al-Cu-Fe quasicrystalline particles”, Journal of Thermoplastic Composite Materials, Vol. 31(7) pp. 882–895, 2018.
  • M.A. Abdulrehman, I.I. Marhoon and A.K AlKamal, “Studying the Effect of Reinforcement with Random Short Fibers and Temperature on the Impact Strength of an Epoxy/Polyurethane Blend Matrix”, International Conference on Materials Engineering and Science, IOP Conf. Series: Materials Science and Engineering, vol. 454, pp.1-6, 2018.
  • P. Sarkar, N. Modak and P. Sahoo, “Effect of Normal Load and Velocity on Continuous Sliding Friction and Wear Behavior of Woven Glass Fiber Reinforced Epoxy Composite,” Materials Today: Proceedings, vol. 4, pp. 3082–3092, 2017.
  • W. Wieleba, “The Mechanism of Tribological Wear of Thermoplastic Materials,” Archieves of Civil and Mechanical Engineering, Vol: VII, No:4, pp. 185-199, 2007.
  • V. Quaglini and P. Dubini, “Friction of Polymers Sliding on Smooth Surfaces,” Advances in Tribology, Volume 2011, pp. 1-8, 2011.
  • K.V. Shooter and D. Tabor, “The Frictional Properties of Plastics,” Proceedings of the Physical Society. Section B, Volume: 65, Number: 9, Pages: 661–671, 1952.
  • Kishore, P. Sampathkumaran, S. Seetharamu, S. Vynatheya, A. Murali, R.K. Kumar, SEM observations of the effects of velocity and load on the sliding wear characteristics of glass fabric–epoxy composites with different fillers, Wear, vol. 237, pp. 20–27, 2000.
  • A. Mimaroglu, H. Unal and T. Arda, “Friction and Wear Performance of Pure and Glass Fiber Reinforced Poly-Ether-Imide on Polymerand Steel Counter face Materials,” Wear, vol. 262, pp.1407–1413, 2007.
  • B. Suresha, G. Chandramohan, P. Samapthkumaran, S. Seetharamu and S. Vynatheya, “Friction and Wear Characteristics of Carbon Epoxy and Glass-Epoxy Woven Roving Fiber Composites,” J. of Rein. Plast. and Comp. vol. 25, pp. 771-782, 2006.
  • Surface Effects and Contact Mechanics X: Computational Methods and Experiments, WIT Transactions on Engineering Sciences, Vol 71, 2011 WIT Press, UK, page 223, Edited By: J.T.M. DE HOSSON, C.A. Brebbia, ISSN 1743-3533 (on-line)
  • H. Pıhtılı and N. Tosun, “Effect of load and speed on the wear behaviour of woven glass fabrics and aramid fibre-reinforced composites,” Wear, vol. 252, pp. 979–984, 2002.
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Makine Mühendisliği
Bölüm Araştırma Makalesi
Yazarlar

Mehmet İskender Özsoy 0000-0001-6777-4818

Levent Esatoğlu Bu kişi benim 0000-0002-4890-8013

Proje Numarası Project Number: 2017-50-01-083
Yayımlanma Tarihi 1 Ekim 2020
Gönderilme Tarihi 4 Mayıs 2020
Kabul Tarihi 21 Temmuz 2020
Yayımlandığı Sayı Yıl 2020

Kaynak Göster

APA Özsoy, M. İ., & Esatoğlu, L. (2020). Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites. Sakarya University Journal of Science, 24(5), 965-972. https://doi.org/10.16984/saufenbilder.731914
AMA Özsoy Mİ, Esatoğlu L. Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites. SAUJS. Ekim 2020;24(5):965-972. doi:10.16984/saufenbilder.731914
Chicago Özsoy, Mehmet İskender, ve Levent Esatoğlu. “Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites”. Sakarya University Journal of Science 24, sy. 5 (Ekim 2020): 965-72. https://doi.org/10.16984/saufenbilder.731914.
EndNote Özsoy Mİ, Esatoğlu L (01 Ekim 2020) Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites. Sakarya University Journal of Science 24 5 965–972.
IEEE M. İ. Özsoy ve L. Esatoğlu, “Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites”, SAUJS, c. 24, sy. 5, ss. 965–972, 2020, doi: 10.16984/saufenbilder.731914.
ISNAD Özsoy, Mehmet İskender - Esatoğlu, Levent. “Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites”. Sakarya University Journal of Science 24/5 (Ekim 2020), 965-972. https://doi.org/10.16984/saufenbilder.731914.
JAMA Özsoy Mİ, Esatoğlu L. Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites. SAUJS. 2020;24:965–972.
MLA Özsoy, Mehmet İskender ve Levent Esatoğlu. “Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites”. Sakarya University Journal of Science, c. 24, sy. 5, 2020, ss. 965-72, doi:10.16984/saufenbilder.731914.
Vancouver Özsoy Mİ, Esatoğlu L. Friction and Wear Properties of Glass Fiber Reinforced Polyphenylene Sulfide Composites. SAUJS. 2020;24(5):965-72.

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