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INVESTIGATION OF THE EFFECT OF SOLID LUBRICANT ADDITIVE IN EPOXY MATRIX COMPOSITES ON THE REDUCING OF FRICTION LOSS

Year 2019, Volume: 8 Issue: 1, 583 - 592, 28.01.2019
https://doi.org/10.28948/ngumuh.517203

Abstract

   In this
study, the effect of epoxy matrix composite on the wear resistance was
investigated by adding the lubricator graphite filler element in high amounts
(25-52% by volume) of epoxy matrix.
Epoxy matrix composites are
produced by open molding technique. 3-point bending strength, bending modulus,
hardness and density measurements of graphite-filled composites were carried
out and microstructure developments were examined.
Wear tests were carried out at room temperature under a 5N load, in a
ball-on-disc wear device up to a wear distance of 200m.
The effects of physico-mechanical properties and microstructure development
on wear behavior were investigated. As a result, the best abrasion resistance
was obtained in 30% graphite added composite material.

References

  • [1] SHALIN, R.E., “Polymer Matrix Composites”. London ; New York : Chapman & Hall, - Soviet advanced composites technology series ; 4, 1st Edition, 440 pages, 1995.
  • [2] ZHANG, S.W., “State of the art of polymer tribology”, Tribol. Int., 31, 49–60, 1998.
  • [3] Açıkbaş G, Göçmez H., “Characterization and properties of industrial polymer matrix composite sanitarywares”, Materials Testing, 59(11-12), 1067-74, 2017.
  • [4] BIJWE J., LOGANI C.M., TEWARI U.S., “Influence of fillers and fibre reinforcement on abrasivewear resistance of some polymeric composites”, Wear, 138(1–2), 77–92, 1990.
  • [5] TRIPATY B.S., FUREY M.J., “Tribological behaviour of unidirectional graphite-epoxy and carbon-PEEK composites”, Wear, 162, 385–96, 1993.
  • [6] SURESHA B., CHANDRAMOHAN G., SAMAPATHKUMARAN P., SEETHARAMU S., VYNATHEYA, “Friction and wear characteristics of carbon-epoxy and glass-epoxy woven roving fiber composites”, J. Reinf. Plast. Compos., 25, 771–82, 2006.
  • [7] LU Z., FRIEDRICH K., PANNHORST W., HEINZ J., “Wear and friction of unidirectional carbon fiber–glass matrix composite against various counterparts”, Wear, 162, 1103–1113, 1993.
  • [8] ACIKBAS G., OZCAN S., CALIS ACIKBAS N., “Production and characterization of a hybrid polymer matrix composite”, Polymer Composites, DOI: 10.1002/pc.24471, 2017.
  • [9] ACIKBAS NC, ACIKBAS G., “Epoxy Matrix Composites Containing Urea Formaldehyde Waste Particulate Filler. Waste and Biomass Valorization”., 8(3), 669-78, 2017.
  • [10] KOLEVA, M., ZHEGLOVA, A., FIDANCEVSKA, E., VASSILEV, V., “Composites Containing Waste Materials”, INTECH Open Access Publisher, 1-28, 2011.
  • [11] SATHIYAMOORTHY, M., THANAPPAN, S.& SENTHILKUMAR M., “Utilization of waste rubber tires as an additional ingredient of concrete mixtures”, International J. of Engg. Research & Indu. Appls., 4(1), 335-350, 2011.
  • [12] ACIKBAS G, GÖCMEZ H., “Polyester Matrisli Kompozit Özeliklerine Vitrifiye Seramik Sağlık Gereci Atık Miktarının Etkisi”, Academic Platform-Journal of Engineering and Science, 5(3), 138-45, 2017.
  • [13] YAMAN B, ACIKBAS G, ACIKBAS NC., “Effect of Particle Size Variations on the Tribological Properties of Porcelain Waste Added Epoxy Composites”. ICCME 2017: 19th International Conference on Chemical and Materials Engineering, Rome, Italy, May 04-05, 2017.
  • [14] ACIKBAS, G., “Interfacial and physico-mechanical properties of walnut shell fiber reinforced polyester matrix composites”, Materials Testing, 60(5), 510-518, 2018.
  • [15] ACIKBAS G, GOCMEZ H., “The Influence of Industrial Fiber Waste Amount on Physico-mechanical Properties of Polyester Matrix Composite”. Scholars Bulletin, 3(11), 617-624, 2017.
  • [16] YAMAN B., CALIS ACIKBAS N., “Dry sliding behaviour of boron waste reinforced epoxy matrix composites”, Journal of Boron, 3(2), 63 – 70, 2018.
  • [17] N. CALIS ACIKBAS, B. YAMAN, G. ACIKBAS, “Influence of vacuum application on the tribological properties of porcelain waste reinforced epoxy composites”, Selcuk Univ. J. Eng. Sci. Tech., 6(1), 55-69, 2018.
  • [18] ASM Handbook, “Friction, Lubrication, and Wear Technology”, Materials Park, USA, vol. 18, ISBN: 978-1-62708-141-2, 1108 pages., 2017
  • [19] HUTCHINGS I., Shipway P., “Tribology; Friction and Wear of Engineering Materials”, Butterworth Heinemann publications, 2nd Edition, Technology & Engineering, 412 pages, Apr 13, 2017.
  • [20] FRIEDRİCH K., LU Z., HAGER A.M., “Recent advances in polymercomposites tribology”, Wear, 190, 139–144, 1996.
  • [21] EI-SAYED A.A., EI-SHERBINY M.J., ABO-EI-EZZ A.S., AGGAG G.A., “Friction and wear properties of polymeric composite materials for bearing applications”, Wear 184, 45–53, 1995
  • [22] CHANG H.W., “Correlation of wear with oxidation of carbon–carbon composites”, Wear, 80(1), 7–14, 1982.
  • [23] LHYMN C., “Tribological behaviour of unidirectional polyphenylene sulfide carbon fiber reinforced laminate”, Wear, 116, 343–359, 1987.
  • [24] SURESHA B., CHANDRAMOHAN G., RENUKAPPA M.N., SIDDARAMAIAH, “Mechanical and tribological properties of glass-epoxy composites with and without graphite”, J. Appl. Polym. Sci., 103, 2472–2480, 2007.
  • [25] MODY P.B., CHOU T.W., FRIEDRICH K., “Effect of testing conditions and microstructure on the slidingwear of graphite fiber/PEEK matrix composites”, J. Mater. Sci., 23, 4319–4330, 1988.
  • [26] Lİ X., GAO Y., XING J., WANG Y., FANG L., “Wear reduction mechanism of graphite and MoS2 in epoxy composites”, Wear, 257(3–4), 279–283, 2004.
  • [27] BAHADUR S., GONG, “The role of copper compounds as fillers in the transfer and wear behaviour of polyetheretherketone”, Wear, 154(1), 151–165, 1992.
  • [28] SHAJI S, RADHAKRISHNAN V., An investigation on surface grinding using graphite as lubricant. International Journal of Machine tools and manufacture, 42(6),733-40, 2002.
  • [29] ZHANG Z., BREIDT C., CHANG L., HAUPERT F., FRIEDRICH K., “Enhancement of the wear resistance of epoxy: short carbon fibre, graphite, PTFE and nano-TiO2”, Composites Part A: Applied Science and Manufacturing, 35(12), 1385-1392, 2004.
  • [30] SURESHA B, CHANDRAMOHAN G, SAMAPTHKUMARAN P, SEETHARAMU S., “Investigation of the friction and wear behavior of glass-epoxy composite with and without graphite filler”, Journal of reinforced plastics and composites, 26(1), 81-93, 2007.
  • [31] SRIVASTAVA VK, PATHAK JP. “Friction and wear properties of bushing bearing of graphite filled short glass fibre composites in dry sliding”. Wear, 197(1-2), 145-50, 1996.
  • [32] SURESHA B, RAMESH BN, SUBBAYA KM, KUMAR BR, CHANDRAMOHAN G., “Influence of graphite filler on two-body abrasive wear behaviour of carbon fabric reinforced epoxy composites” Materials & Design, 31(4),1833-41, 2010.
  • [33] SURESHA B, SEETHARAMU S, KUMARAN PS., “Investigations on the influence of graphite filler on dry sliding wear and abrasive wear behaviour of carbon fabric reinforced epoxy composites”, Wear, 267(9), 1405-14, 2009.
  • [34] PAN G., GUO Q., DING J, ZHANG W, WANG X, “Tribological behaviors of graphite/epoxy two-phase composite coatings”, Tribology International, 43, 1318–1325, 2010.
  • [36] XIAN GJ, WALTER R, Haupert F. A, “Synergistic effect of nano-TiO2 and graphite on the tribological performance of epoxy matrix composites”, J Appl Polym Sci, 102(3),2391–400, 2006.
  • [37] KOLEVA M, ZHEGLOVA A, VASSILEV V, FIDANCEVSKA E, MILOSEVSKI M, VASSILEV G., “Strength characteristics of polymer composites with waste dust from power production” In Proceedings of International Scientific Conference UNITEH’07, 339-343, 2007.

EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ

Year 2019, Volume: 8 Issue: 1, 583 - 592, 28.01.2019
https://doi.org/10.28948/ngumuh.517203

Abstract

   Yapılan
çalışmada yağlayıcı özelliği bulunan grafit dolgu elemanının yüksek miktarlarda
(hac.%25-52) epoksi matris içerisine ilave edilmesiyle epoksi matrisli
kompozitin aşınma direnci üzerine etkisi araştırılmıştır. Epoksi matrisli kompozitler
açık kalıplama tekniği ile üretilmiştir. Grafit dolgulu kompozitlerin 3 noktalı
eğme mukavemeti, eğme modulü, sertlik, yoğunluk ölçümleri yapılmış ve mikroyapı
gelişimleri incelenmiştir. Aşınma testleri 5N yük altında, 200m aşınma
mesafesine kadar ball-on-disk aşınma cihazında, oda sıcaklığında
gerçekleştirilmiştir. Fiziko-mekanik özelliklerin ve mikroyapı gelişiminin
aşınma davranışı üzerine etkisi araştırılmıştır. Sonuç olarak en iyi aşınma
direnci %30 grafit katkılı kompozit malzemede elde edilmiştir. 

References

  • [1] SHALIN, R.E., “Polymer Matrix Composites”. London ; New York : Chapman & Hall, - Soviet advanced composites technology series ; 4, 1st Edition, 440 pages, 1995.
  • [2] ZHANG, S.W., “State of the art of polymer tribology”, Tribol. Int., 31, 49–60, 1998.
  • [3] Açıkbaş G, Göçmez H., “Characterization and properties of industrial polymer matrix composite sanitarywares”, Materials Testing, 59(11-12), 1067-74, 2017.
  • [4] BIJWE J., LOGANI C.M., TEWARI U.S., “Influence of fillers and fibre reinforcement on abrasivewear resistance of some polymeric composites”, Wear, 138(1–2), 77–92, 1990.
  • [5] TRIPATY B.S., FUREY M.J., “Tribological behaviour of unidirectional graphite-epoxy and carbon-PEEK composites”, Wear, 162, 385–96, 1993.
  • [6] SURESHA B., CHANDRAMOHAN G., SAMAPATHKUMARAN P., SEETHARAMU S., VYNATHEYA, “Friction and wear characteristics of carbon-epoxy and glass-epoxy woven roving fiber composites”, J. Reinf. Plast. Compos., 25, 771–82, 2006.
  • [7] LU Z., FRIEDRICH K., PANNHORST W., HEINZ J., “Wear and friction of unidirectional carbon fiber–glass matrix composite against various counterparts”, Wear, 162, 1103–1113, 1993.
  • [8] ACIKBAS G., OZCAN S., CALIS ACIKBAS N., “Production and characterization of a hybrid polymer matrix composite”, Polymer Composites, DOI: 10.1002/pc.24471, 2017.
  • [9] ACIKBAS NC, ACIKBAS G., “Epoxy Matrix Composites Containing Urea Formaldehyde Waste Particulate Filler. Waste and Biomass Valorization”., 8(3), 669-78, 2017.
  • [10] KOLEVA, M., ZHEGLOVA, A., FIDANCEVSKA, E., VASSILEV, V., “Composites Containing Waste Materials”, INTECH Open Access Publisher, 1-28, 2011.
  • [11] SATHIYAMOORTHY, M., THANAPPAN, S.& SENTHILKUMAR M., “Utilization of waste rubber tires as an additional ingredient of concrete mixtures”, International J. of Engg. Research & Indu. Appls., 4(1), 335-350, 2011.
  • [12] ACIKBAS G, GÖCMEZ H., “Polyester Matrisli Kompozit Özeliklerine Vitrifiye Seramik Sağlık Gereci Atık Miktarının Etkisi”, Academic Platform-Journal of Engineering and Science, 5(3), 138-45, 2017.
  • [13] YAMAN B, ACIKBAS G, ACIKBAS NC., “Effect of Particle Size Variations on the Tribological Properties of Porcelain Waste Added Epoxy Composites”. ICCME 2017: 19th International Conference on Chemical and Materials Engineering, Rome, Italy, May 04-05, 2017.
  • [14] ACIKBAS, G., “Interfacial and physico-mechanical properties of walnut shell fiber reinforced polyester matrix composites”, Materials Testing, 60(5), 510-518, 2018.
  • [15] ACIKBAS G, GOCMEZ H., “The Influence of Industrial Fiber Waste Amount on Physico-mechanical Properties of Polyester Matrix Composite”. Scholars Bulletin, 3(11), 617-624, 2017.
  • [16] YAMAN B., CALIS ACIKBAS N., “Dry sliding behaviour of boron waste reinforced epoxy matrix composites”, Journal of Boron, 3(2), 63 – 70, 2018.
  • [17] N. CALIS ACIKBAS, B. YAMAN, G. ACIKBAS, “Influence of vacuum application on the tribological properties of porcelain waste reinforced epoxy composites”, Selcuk Univ. J. Eng. Sci. Tech., 6(1), 55-69, 2018.
  • [18] ASM Handbook, “Friction, Lubrication, and Wear Technology”, Materials Park, USA, vol. 18, ISBN: 978-1-62708-141-2, 1108 pages., 2017
  • [19] HUTCHINGS I., Shipway P., “Tribology; Friction and Wear of Engineering Materials”, Butterworth Heinemann publications, 2nd Edition, Technology & Engineering, 412 pages, Apr 13, 2017.
  • [20] FRIEDRİCH K., LU Z., HAGER A.M., “Recent advances in polymercomposites tribology”, Wear, 190, 139–144, 1996.
  • [21] EI-SAYED A.A., EI-SHERBINY M.J., ABO-EI-EZZ A.S., AGGAG G.A., “Friction and wear properties of polymeric composite materials for bearing applications”, Wear 184, 45–53, 1995
  • [22] CHANG H.W., “Correlation of wear with oxidation of carbon–carbon composites”, Wear, 80(1), 7–14, 1982.
  • [23] LHYMN C., “Tribological behaviour of unidirectional polyphenylene sulfide carbon fiber reinforced laminate”, Wear, 116, 343–359, 1987.
  • [24] SURESHA B., CHANDRAMOHAN G., RENUKAPPA M.N., SIDDARAMAIAH, “Mechanical and tribological properties of glass-epoxy composites with and without graphite”, J. Appl. Polym. Sci., 103, 2472–2480, 2007.
  • [25] MODY P.B., CHOU T.W., FRIEDRICH K., “Effect of testing conditions and microstructure on the slidingwear of graphite fiber/PEEK matrix composites”, J. Mater. Sci., 23, 4319–4330, 1988.
  • [26] Lİ X., GAO Y., XING J., WANG Y., FANG L., “Wear reduction mechanism of graphite and MoS2 in epoxy composites”, Wear, 257(3–4), 279–283, 2004.
  • [27] BAHADUR S., GONG, “The role of copper compounds as fillers in the transfer and wear behaviour of polyetheretherketone”, Wear, 154(1), 151–165, 1992.
  • [28] SHAJI S, RADHAKRISHNAN V., An investigation on surface grinding using graphite as lubricant. International Journal of Machine tools and manufacture, 42(6),733-40, 2002.
  • [29] ZHANG Z., BREIDT C., CHANG L., HAUPERT F., FRIEDRICH K., “Enhancement of the wear resistance of epoxy: short carbon fibre, graphite, PTFE and nano-TiO2”, Composites Part A: Applied Science and Manufacturing, 35(12), 1385-1392, 2004.
  • [30] SURESHA B, CHANDRAMOHAN G, SAMAPTHKUMARAN P, SEETHARAMU S., “Investigation of the friction and wear behavior of glass-epoxy composite with and without graphite filler”, Journal of reinforced plastics and composites, 26(1), 81-93, 2007.
  • [31] SRIVASTAVA VK, PATHAK JP. “Friction and wear properties of bushing bearing of graphite filled short glass fibre composites in dry sliding”. Wear, 197(1-2), 145-50, 1996.
  • [32] SURESHA B, RAMESH BN, SUBBAYA KM, KUMAR BR, CHANDRAMOHAN G., “Influence of graphite filler on two-body abrasive wear behaviour of carbon fabric reinforced epoxy composites” Materials & Design, 31(4),1833-41, 2010.
  • [33] SURESHA B, SEETHARAMU S, KUMARAN PS., “Investigations on the influence of graphite filler on dry sliding wear and abrasive wear behaviour of carbon fabric reinforced epoxy composites”, Wear, 267(9), 1405-14, 2009.
  • [34] PAN G., GUO Q., DING J, ZHANG W, WANG X, “Tribological behaviors of graphite/epoxy two-phase composite coatings”, Tribology International, 43, 1318–1325, 2010.
  • [36] XIAN GJ, WALTER R, Haupert F. A, “Synergistic effect of nano-TiO2 and graphite on the tribological performance of epoxy matrix composites”, J Appl Polym Sci, 102(3),2391–400, 2006.
  • [37] KOLEVA M, ZHEGLOVA A, VASSILEV V, FIDANCEVSKA E, MILOSEVSKI M, VASSILEV G., “Strength characteristics of polymer composites with waste dust from power production” In Proceedings of International Scientific Conference UNITEH’07, 339-343, 2007.
There are 36 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Materials and Metallurgical Engineering
Authors

Bilge Yaman Islak 0000-0003-0766-8014

Gökhan Açıkbaş This is me 0000-0002-5695-3658

Nurcan Çalış Açıkbaş This is me 0000-0001-6193-8252

Publication Date January 28, 2019
Submission Date November 21, 2018
Acceptance Date January 7, 2019
Published in Issue Year 2019 Volume: 8 Issue: 1

Cite

APA Yaman Islak, B., Açıkbaş, G., & Çalış Açıkbaş, N. (2019). EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, 8(1), 583-592. https://doi.org/10.28948/ngumuh.517203
AMA Yaman Islak B, Açıkbaş G, Çalış Açıkbaş N. EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ. NOHU J. Eng. Sci. January 2019;8(1):583-592. doi:10.28948/ngumuh.517203
Chicago Yaman Islak, Bilge, Gökhan Açıkbaş, and Nurcan Çalış Açıkbaş. “EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ”. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 8, no. 1 (January 2019): 583-92. https://doi.org/10.28948/ngumuh.517203.
EndNote Yaman Islak B, Açıkbaş G, Çalış Açıkbaş N (January 1, 2019) EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 8 1 583–592.
IEEE B. Yaman Islak, G. Açıkbaş, and N. Çalış Açıkbaş, “EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ”, NOHU J. Eng. Sci., vol. 8, no. 1, pp. 583–592, 2019, doi: 10.28948/ngumuh.517203.
ISNAD Yaman Islak, Bilge et al. “EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ”. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 8/1 (January 2019), 583-592. https://doi.org/10.28948/ngumuh.517203.
JAMA Yaman Islak B, Açıkbaş G, Çalış Açıkbaş N. EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ. NOHU J. Eng. Sci. 2019;8:583–592.
MLA Yaman Islak, Bilge et al. “EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ”. Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, vol. 8, no. 1, 2019, pp. 583-92, doi:10.28948/ngumuh.517203.
Vancouver Yaman Islak B, Açıkbaş G, Çalış Açıkbaş N. EPOKSİ MATRİSLİ KOMPOZİTLERDE KATI YAĞLAYICI İLAVESİNİN SÜRTÜNME KAYBININ AZALTILMASINA ETKİSİNİN İNCELENMESİ. NOHU J. Eng. Sci. 2019;8(1):583-92.

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