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Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites

Yıl 2022, Cilt: 6 Sayı: 1, 1 - 11, 15.04.2022

Öz

Micro particles of mild steel, silicon carbide, magnesia and bentonite were employed as input materials in the production of ceramic matrix composites by powder metallurgy. The composites were characterised and they demonstrated desirable characteristics. Sample D containing 12 wt. % of mild steel particles exhibited a very good thermal stability in the temperature range of 0 – 800 0C, high coefficient of friction of 0.59 and reduced wear rate of 2.228 x 10-5 g/m which implies high resistance to wear. Proper blending of constituent materials and strong bonding enhanced the characteristics of the composites. The results indicated the suitability of the composite for use in fields that require high resistance to thermal decomposition and wear.

Kaynakça

  • [1] A.E. Pramono, M.Z. Nura, J.W.M. Soedarsonob, N. Indayaningsih, Properties of wear rate and electrical conductivity of carbon ceramic composites, Journal of Ceramic Processing Research. 20(1) (2019) 1-7.
  • [2] W.Z. Eddine, P. Matteazzi, J.P. Celis, Mechanical and tribological behaviour of nanostructured copper-alumina cermet obtained by pulsed electric current sintering. Wear 297 (2013) 762-773.
  • [3] R. Riina, A. Maksim, V. Renno, H. Simo-Pekka, Comparison of the wear and frictional properties of Cu matrix composites prepared by pulsed electric current sintering, Proceedings of the Estonian Academy of Sciences. 63(1) (2014) 62-74.
  • [4] A.P. Garshina, V.I. Kulik, A.S. Nilov, Study of ceramic-matrix composites tribological properties paired with cermet, Elsevier, Procedia Engineering. 206 (2017) 771-776.
  • [5] M. Djafri, M. Bouchetara, C. Busch, S. Weber, Experimental study of the tribological behaviour of materials of brake, MECHANIKA. 20(4) (2014) 420-425.
  • [6] K.K. Ikpambese, D.T. Gundu, L.T. Tuleun, Evaluation of palm kernel fibers (PKFs) for production of asbestos-free automotive brake pads, Journal of King Saud University – Engineering Sciences. 28 (2016) 110-118.
  • [7] K. Holmberg, A. Matthews, Coatings Tribology, Properties, Mechanisms, Techniques and Applications in Surface Engineering (Briscoe, B., ed.). Tribology and Interface Engineering, 2nd edition, Series 56, 2009. [8] J. Tarabay, V. Peres, E. Serris, F. Valdivieso, M. Pijolat, Zirconia matrix composite dispersed with stainless steel particles: processing and oxidation behaviour, Elsevier, Journal of the European Ceramic Society. 33 (2013) 1101-1110.
  • [9] U.K. Essays, Experiment to Determine the Coefficient of Friction, SAE Automotive Engineers Congress. Society of Automotive Engineers, Paper Number 670146, Detroit, USA. 2018. https://www.ukessays.com/essays/physics/experiment-determine coefficient4293.php? vref=1,
  • [10] A.I. Olabisi, N.A. Ademoh, O.M. Okechukwu, Development and assessment of composite brake pad using pulverized cocoa beans shells filler, International Journal of Materials Science and Applications. 5(2) (2016) 66-78.
  • [11] A. Subasinghe, R. Das, D. Bhattacharyya, Study of thermal, flammability, and mechanical properties of intumescent flame retardant pp/kenaf nanocomposites, Taylor & Francis Group, International Journal of Smart and Nano Materials. 7(3) (2016) 202-220.
  • [12] Nigerian Industrial Standards, Specification for friction materials for road vehicles brake lining and pads, Standard Organisation of Nigeria (SON), NIS 323, Nigeria, 1997.
  • [13] D.S. Yawas, S.Y. Aku, S.G. Amaren, Morphology and properties of periwinkle shell asbestos-free brake pad, Journal of King Saud University – Engineering Sciences. 28 (2016) 103-109.
Yıl 2022, Cilt: 6 Sayı: 1, 1 - 11, 15.04.2022

Öz

Kaynakça

  • [1] A.E. Pramono, M.Z. Nura, J.W.M. Soedarsonob, N. Indayaningsih, Properties of wear rate and electrical conductivity of carbon ceramic composites, Journal of Ceramic Processing Research. 20(1) (2019) 1-7.
  • [2] W.Z. Eddine, P. Matteazzi, J.P. Celis, Mechanical and tribological behaviour of nanostructured copper-alumina cermet obtained by pulsed electric current sintering. Wear 297 (2013) 762-773.
  • [3] R. Riina, A. Maksim, V. Renno, H. Simo-Pekka, Comparison of the wear and frictional properties of Cu matrix composites prepared by pulsed electric current sintering, Proceedings of the Estonian Academy of Sciences. 63(1) (2014) 62-74.
  • [4] A.P. Garshina, V.I. Kulik, A.S. Nilov, Study of ceramic-matrix composites tribological properties paired with cermet, Elsevier, Procedia Engineering. 206 (2017) 771-776.
  • [5] M. Djafri, M. Bouchetara, C. Busch, S. Weber, Experimental study of the tribological behaviour of materials of brake, MECHANIKA. 20(4) (2014) 420-425.
  • [6] K.K. Ikpambese, D.T. Gundu, L.T. Tuleun, Evaluation of palm kernel fibers (PKFs) for production of asbestos-free automotive brake pads, Journal of King Saud University – Engineering Sciences. 28 (2016) 110-118.
  • [7] K. Holmberg, A. Matthews, Coatings Tribology, Properties, Mechanisms, Techniques and Applications in Surface Engineering (Briscoe, B., ed.). Tribology and Interface Engineering, 2nd edition, Series 56, 2009. [8] J. Tarabay, V. Peres, E. Serris, F. Valdivieso, M. Pijolat, Zirconia matrix composite dispersed with stainless steel particles: processing and oxidation behaviour, Elsevier, Journal of the European Ceramic Society. 33 (2013) 1101-1110.
  • [9] U.K. Essays, Experiment to Determine the Coefficient of Friction, SAE Automotive Engineers Congress. Society of Automotive Engineers, Paper Number 670146, Detroit, USA. 2018. https://www.ukessays.com/essays/physics/experiment-determine coefficient4293.php? vref=1,
  • [10] A.I. Olabisi, N.A. Ademoh, O.M. Okechukwu, Development and assessment of composite brake pad using pulverized cocoa beans shells filler, International Journal of Materials Science and Applications. 5(2) (2016) 66-78.
  • [11] A. Subasinghe, R. Das, D. Bhattacharyya, Study of thermal, flammability, and mechanical properties of intumescent flame retardant pp/kenaf nanocomposites, Taylor & Francis Group, International Journal of Smart and Nano Materials. 7(3) (2016) 202-220.
  • [12] Nigerian Industrial Standards, Specification for friction materials for road vehicles brake lining and pads, Standard Organisation of Nigeria (SON), NIS 323, Nigeria, 1997.
  • [13] D.S. Yawas, S.Y. Aku, S.G. Amaren, Morphology and properties of periwinkle shell asbestos-free brake pad, Journal of King Saud University – Engineering Sciences. 28 (2016) 103-109.
Toplam 12 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Malzeme Üretim Teknolojileri
Bölüm Research Articles
Yazarlar

Stephen Durowaye 0000-0003-4787-5675

Oluwatomisin Awotunde 0000-0001-9491-4169

Samuel Alao 0000-0002-5341-291X

Diana Kanu 0000-0002-0487-1036

Yayımlanma Tarihi 15 Nisan 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 6 Sayı: 1

Kaynak Göster

APA Durowaye, S., Awotunde, O., Alao, S., Kanu, D. (2022). Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites. Acta Materialia Turcica, 6(1), 1-11.
AMA Durowaye S, Awotunde O, Alao S, Kanu D. Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites. ACTAMAT. Nisan 2022;6(1):1-11.
Chicago Durowaye, Stephen, Oluwatomisin Awotunde, Samuel Alao, ve Diana Kanu. “Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites”. Acta Materialia Turcica 6, sy. 1 (Nisan 2022): 1-11.
EndNote Durowaye S, Awotunde O, Alao S, Kanu D (01 Nisan 2022) Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites. Acta Materialia Turcica 6 1 1–11.
IEEE S. Durowaye, O. Awotunde, S. Alao, ve D. Kanu, “Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites”, ACTAMAT, c. 6, sy. 1, ss. 1–11, 2022.
ISNAD Durowaye, Stephen vd. “Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites”. Acta Materialia Turcica 6/1 (Nisan 2022), 1-11.
JAMA Durowaye S, Awotunde O, Alao S, Kanu D. Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites. ACTAMAT. 2022;6:1–11.
MLA Durowaye, Stephen vd. “Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites”. Acta Materialia Turcica, c. 6, sy. 1, 2022, ss. 1-11.
Vancouver Durowaye S, Awotunde O, Alao S, Kanu D. Effect of Mild Steel Particles on the Thermal, Frictional and Wear Characteristics of Ceramic Matrix Composites. ACTAMAT. 2022;6(1):1-11.