Yıl 2020,
4. International Conference on Material Science and Technology (IMSTEC 2019) özel sayı, 1 - 15, 01.07.2020
İbrahim Mutlu
,
Bekir Güney
,
Onur Can Ünal
Ömer Kartal
Teşekkür
Bu makale, 4. International Conference on Material Science and Technology in Kızılcahamam/ANKARA(IMSTEC 2019) sempozyumunda sözlü olarak sunulan bildirinin düzenlenmiş halidir. Sempozyum Düzenleme Kuruluna Teşekkür ederiz.
Kaynakça
- [1] Kennedy, Z.E., Natarajan, S., "Slurry erosion properties of detonation sprayed and plasma sprayed coatings for materials used in mining environments", Surface Engineering, 25, 476-481, 2009.
- [2] Saral, U., Toplan, N., "Thermal cycle properties of plasma sprayed YSZ/Al2O3 thermal barrier coatings", Surface Engineering, 25, 541-547, 2009.
- [3] Enayati, M.H., Fathi, M.H., Zomorodian, A., "Characterisation and corrosion properties of novel hydroxyapatite niobium plasma sprayed coating", Surface Engineering, 25, 338-342, 2009.
- [4] Wang, Y., Guo, H.B., Li, Z.Y., Gong, S.K., "Segmented lanthanum cerium oxide thermal barrier coatings by atmospheric plasma spray", Surface Engineering, 25, 555-558, 2009.
- [5] Verdian, M.M., Salehi, M., Raeissi, K., "Influence of feedstock particle size on corrosion resistance of air plasma sprayed NiTi coatings applied to AISI 1045 steel", Surface Engineering, 26, 478-483, 2010.
- [6] Jin, Y., Yang, Y., "Tribological behavior of various plasma sprayed ceramic coatings", Surface and Coatings Technology, 88, 248-54, 1996.
- [7] Wang, Y., "Friction and wear performances of detonation gun and plasma sprayed ceramic and cermet hard coatings under dry friction", Wear, 161, 69-78, 1993.
- [8] Liu, H., Tao, J., Xu, J., Chen Z., Qiang Gao, Q., "Corrosion and tribological behaviors of chromium oxide coatings prepared by the glow-discharge plasma technique", Surface and Coatings Technology, 204, 28-36, 2009.
- [9] Zhang, J., Wang, Z., Lin, P., Lu, W., Zhou, Z., Jiang, S., "Effect of Sealing Treatment on Corrosion Resistance of Plasma-Sprayed NiCrAl/Cr2O3-8wt.%TiO2 Coating", Journal of Thermal Spray Technology, 5(20), 508-513, 2011.
- [10] Güney, B.i, Mutlu, İ., "Wear and corrosion resistance of Cr2O3%-40% TiO2 coating on gray cast-iron by plasma spray technique", Materials Research Express, 6 (9), 069577, 2019.
- [11] Harju, M., Halme, J., Järn, M., Rosenholm, J.B., Mäntylä, T., "Influence of aqueous aging on surface properties of plasma sprayed oxide coatings", Journal of Colloid and Interface Science, 313, 194-201, 2007.
- [12] Merlin, M., Soffritti, C., Vazquez, R., "Effect of relative humidity and applied loads on the tribological behaviour of a steel/Cr2O3-ceramic coupling", Wear, 303, 371-80, 2013.
- [13] Pawlowski, L., "Technology of thermally sprayed anilox rolls: State of art, problems, and perspectives", Journal of Thermal Spray Technology, 5, 317-334, 1996.
- [14] Singh, V,P., Sil, A., Jayaganthan, R., "Wear of plasma sprayed conventional and nanostructured Al2O3 and Cr2O3 based coatings", Transactions of the Indian Institute of Metals, 65, 1-12, 2012.
- [15] Zhang, J., Wang, Z., Lin, P., "Effects of sealing on corrosion behaviour of plasma-sprayed Cr2O3–8TiO2 coating", Surface Engineering, 29(8), 594-99, 2013.
- [16] Ramachandran, K., Selvarajan, V., Ananthapadmanabhan, P.V., Sreekumar, K.P., "Microstructure adhesion, microhardness, abrasive wear resistance and electrical resistivity of the plasma sprayed alumina and alumina-titania coatings", Thin Solid Films, 315, 144-152, 1998.
- [17] Yılmaz, R., Kurt, A.O., Demir, A., Tatli, Z., "Effects of TiO2 on the mechanical properties of the Al2O3-TiO2 plasma sprayed coating", Journal of the European Ceramic Society, 27, 1319-1323, 2007.
- [18] Fervel, V., Normand, B., Coddet, C., "Tribological behavior of plasma sprayed Al2O3 based cermet coatings", Wear, 230, 70-77, 1999.
- [19] Çetinel, H., Çelik, E., Kusoğlu, M.I., "Tribological behavior of Cr2O3 coatings as bearing materials", Journal of Materials Processing Technology, 196, 259-265, 2008.
- [20] Sammelselg, A., Tarre, J., Lu, J., Aarik, A., Niilisk, T., Uustare, T., Netšipailo, I., Rammula, R., Pärna, R., Rosental, A, "Structural characterization of TiO2–Cr2O3 nanolaminates grown by atomic coating deposition", Surface and Coatings Technology, 204 (12), 2015-2018, 2010.
- [21] Ctibor, P., Píš, I., Kotlan, J., Pala, Z., Khalakhan, I., Stengl, V., Homola, P., "Microstructure and properties of plasma-sprayed mixture of Cr2O3 and TiO2", Journal of Thermal Spray Technology, 22, 1163-1169, 2013.
- [22] Negishi, N., Takeuchi, K., Preparation of TiO2 thin film photocatalysts by dip coating using a highly viscous solvent, Journal of Sol-Gel Science and Technology, 22(1–2), 23-31, 2001.
- [23] Wang, J., Wang, J.J., Sun, Y.L., Wang, C.H., "The preparation of superhydrophilic surface of TiO2 coating without ultraviolet irradiation through annealing treatment", Journal of Sol-Gel Science and Technology, 68(1),75-80, 2013.
- [24] Bergamonti, L., Alfieri, I., Franzò, M., Lorenzi, A., Montenero, A., Predieri, G., Raganato, M., Calia, A., Lazzarini, L., Bersani, D., Lottici, P.P., "Synthesis and characterization of nanocrystalline TiO2 with application as photoactive coating on stones", Environmental Science and Pollution Research. 21(23), 13264-13277, 2014.
- [25] Magami, S.M., Oldring, P.K.T., Castle, L., Guthrie , J.T, "The effect of TiO2, pigmentation on the hydrolysis of amino resin crosslinked epoxy can coatings", Journal of Coatings Technology and Research, 11(6), 1013-1022, 2014.
- [26] Li, N., Li, G., Wang, H., Kang, J., Dong, T., Wang, H., "Influence of TiO2 content on the mechanical and tribological properties of Cr2O3-based coating", Materials and Design, 88,906-914, 2015.
- [27] Bolelli, G., Cannillo, V., Lusvarghi, L., Manfredini, T., "Wear behaviour of thermally sprayed ceramic oxide coatings", Wear, 261, 1298-1315, 2006.
- [28] Ahn, H., Kwon, O.K., "Tribological behaviour of plasma-sprayed chromium oxide coating", Wear, 225-229, 814-824, 1999.
- [29] Bagde, P., Sapate, S.G., Khatirkar, R.K., Vashishtha, N., Tailor, S., "Friction and wear behaviour of plasma sprayed Cr2O3-TiO2 coating", Materials Research. Express, 5, 1-14, 2018.
- [30] Güney, B., Mutlu, İ., "Tribological properties of brake discs coated Cr2O3-40%TiO2 by plasma spraying", Surface Review And Lettres, 26 (10) , 1950075, 2019.
- [31] Mutlu, İ., Güney, B., Erkurt, İ., "Investigation of the effect of Cr2O3-2TiO2 coating on braking performance", International Journal of Automotive Engineering and Technologies, 9 (1), 29-41, 2020.
- [32] Güney, B., Mutlu, İ., Gayretli, A., "Investigation of braking performance of NiCrBSi coated brake discs by thermal spraying and melting", Journal of The Balkan Tribological Association, 22 (1), 331-346, 2016.
- [33] Güney, B., Mutlu, İ., Küçüksarıyıldız, H., "The effect of flame spray coating on the tribological properties of brake disc", Politeknik Dergisi, 2020. https://doi.org/10.2339/politeknik.563277.
- [34] Güney, B., Mutlu, İ., "Dry friction behavior of NiCrBSi-%35W2C coated brake disks", Materials Testing, 59 (5), 497-505, 2017.
- [35] Blau, P.J., Mc-Laughlin, J.C., "Effects of water films and sliding speed on the frictional behavior of truck disc brake material", Tribology in Industries, 36 (10), 709-715, 2003.
- [36] Anderson, A.E., "Friction and wear automotive brakes", ASM Handbook, Friction, Lubrication, and Wear Technology, ASM International, Materials Park, Ohio, 18 2017.
- [37] Wu, Y., Ma, Y., Gao, W., Yang, G., Fu, H., Xi, N., Chen, H., "High temperature wear performance of laser cladding Co06 coating on high-speed train brake disc", Applied Surface Science, 481, 761-766, 2019.
- [38] Kılıç, H., Mısırlı, C., "Investigation of tribological behavior of 20NiCrBSi-WC12Co coated brake disc by HVOF method", Materials Research Express, 7 (1), 016560, 2020.
- [39] https://www.oerlikon.com/metco/en/meta-navigation/search-result/?q=MaterialGuide, (Erişim: 22 Mayıs 2019).
- [40] Hirota, K., Takano, Y., Yoshinaka, M., Yamaguchi, O., "Fabrication and mechanical properties of almost fully-densified Cr2O3 ceramics", Journal of Materials Science Letters, 21(11), 853-854, 2002.
- [41] Du, H.L., Datta, P.K., Burnell-Gray, J.S., Guo, X., "Influence of plasma-sprayed Mo coating on sulphidation behaviour of inconel 600 and nimonic PE11 alloys", Surface and Coatings Technology, (76-77), 1-6, 1995.
- [42] Hieman, R.B., Plasma spray coating-principles and applications, VCH publishers Inc., NY, USA. 1996.
- [43] Çelik, E., Şengil, İ.A., Avcı, E., "Effect of some parameters on corrosion behaviour of plasma-sprayed coatings", Surface and Coatings Technology, 97, 355-360, 1997.
- [44] Anonim, SAE J2430, "Dynamometer effectiveness characterization test forpassenger car andlight truck brake friction products. surface vehicle standard", Society of Automotive Engineers, Pensilvanya, USA, 1999.
- [45] Anonim, "How to read and understand the aftermarket standard sae J2430/brake effectiveness evaluation procedure-Test report", Detroit, Michigan, Link Testing, 1999.
- [46] Carlos, E.A., Ferro, E., "Technical overview of brake performance testing for original equipment and aftermarket industries in the US and europe an markets", Link Technical Report FEV 2005-01. 2005.
- [47] Miguel, J.M., Guilemany, J.M., Vizcaino, S., "Tribological study of NiCrBSi coating obtained by different processes", Tribology International, 36 (3), 181-1 87, 2003.
- [48] Vaclav, R., Helena, R., Dagmer, J., Peter, F., "Wear and environmental aspects of composite materials for automotive braking industry", Wear, 265, 167-175, 2005.
- [49] Guo, C., Zhou, J., Zhao, J., Chen, J., "Effect of ZrB2 on the microstructure and wear resistance of Ni-based composite coating produced on pure Ti by laser cladding", Tribology Transactions, 54, 80-86, 2001.
- [50] Skrúcaný, T., Synák, F., Semanová, S., "Influence of the braking system that is contrary to legislation on breaking characteristics of passenger car", Transport Technic and Technology, 14 (1), 1-5, 2018.
- [51] Öz, A., Gürbüz, H., Yakut, A.K., Sağıroğlu, S., "Braking performance and noise in excessive worn brake discs coated with HVOF thermal spray process", Journal of Mechanical Science and Technology, 31 (2), 535-543, 2017.
- [52] Peng, L., "Preparation and tribological properties of NiCrBSiC reinforced laser alloying laye"r, Tribology Transactions, 56, 697-702, 20013.
- [53] Filip, P., Weiss, Z., Rafaja, D., "On friction layer formation in polymer matrix composite materials for brake applications", Wear, 252, 189-198, 2002.
- [54] Ertan, R., Yavuz, N., "Balata malzemelerinde kullanılan yapısalların balataların tribolojik ve fiziksel özelliklerine etkisi", Uludağ Üniversitesi, Mühendislik-Mimarlık Dergisi, 15, 169-177, 2010.
- [55] Shorowordi, K.M., Haseeb, A.S.M.A., Celis, J.P., "Velocity effects on the wear, friction and tribochemistry of aluminium MMC sliding against phenolic brake pad", Wear, 256, 1176-1181, 2004.
- [56] Özel , S., Kurt, B., Somunkıran, İ., Orhan, N., "Microstructural characteristic of NiTi coating on stainless steel by plasma transferred arc process", Surface and Coating Technology, Volume, 202, 633-3637, 2008.
- [57] Somunkıran, İ., Kurt, B., Buytoz, S., Orhan, N., "Microstructural characteristic of Co-Cr-Mo powder alloy coating on stainless steel by plasma transferred arc weld surfacing", Praktical Metallography. 47(10), 418-431, 2010.
- [58] Lee, C.H., Kim, H.K., Choi, H.S., Ahn, H.S., "Phase transformation and bond coat oxidation behavior of plasma-sprayed zirconia thermal barrier coatin", Surface and Coatings Technology, 124, 1-12 2000.
- [59] Li, C.J., Yang, G.J., Ohmori, A., "Relationship between particle erosion and lamellar microstructure for plasma-sprayed alumina coatings", Wear, 260, 1166-1172, 2006.
- [60] Pawlowski, L., "The science and engineering of thermal spray coatings", John Wiley-Sons, Ld., England, 2008.
[61] Kuroda, T., Kobayashi, A., "Adhesion characteristics of zirconia-alumina composite coatings by gastunnel type plasma spraying", Vacuum, 73, 635-641, 2004.
- [62] Çelik, E., Tekmen, C., Özdemir I., Çetinel, H., Karakaş, Y., Okumuş, S.C., "Effects on performance of Cr2O3 layers produced on Mo/cast-iron materials", Surface and Coatings Technology, (174-175), 1074-1081, 2003.
- [63] Luo, H., Goberman, D., Shaw, L., Gell, M., "Indentation fracture behavior of plasma sprayed nano structured Al2O3-%13TiO2 coatings", Materials Science and Engineering A, 346 (1-2), 237-245, 2003.
- [64] Fervel, B., Normand, C., Coddet, C., "Tribological behavior of plasma sprayed Al2O3-based cermet coatings", Wear, 230(1), 70-77, 1999.
- [65] Yin, Z., Tao, S., Zhoua, X., Ding, C., "Particle in-flight behavior and its influence on the microstructure and mechanical properties of plasma sprayed Al2O3 coatings", Journal of the European Ceramic Society, 28, 1143-1148, 2008.
- [66] Çelik, E., Sarıkaya, Ö., "The effect on residual stresses of porosity in plasma sprayed MgO-ZrO2 coatings for an internal combustion diesel engine", Materials Science and Engineering A, 379, 11-16. 2004.
- [67] Song, E.P., Ahn, J., Lee, S., Kim, N.J., "Effects of critica lplasma spray parameter and spray distance on wear resistance of Al2O3-%8TiO2 coatings plasma sprayed with nano powders", Surface and Coating Technology, 20, 3625-3632, 2008.
- [68] Eriksson, M., Bergman, F., Jacobson, S., "On the nature of tribological contact in automotive brakes", Wear, 252, 26-36, 2002.
- [69] Mutlu, İ., Öner, C., Fındık, F., "Boric acid effect in phenolic composites on tribological properties in brake linings", Materials and Design, 28, 480-487, 2007.
55TiO2-Cr2O3 Kaplamanın Frenleme Performansına Etkisinin Araştırılması
Yıl 2020,
4. International Conference on Material Science and Technology (IMSTEC 2019) özel sayı, 1 - 15, 01.07.2020
İbrahim Mutlu
,
Bekir Güney
,
Onur Can Ünal
Ömer Kartal
Öz
Bu çalışmada, 55TiO2-Cr2O3 (Metco111) seramik toz, atmosferik plazma püskürme (APS) kaplama tekniği ile dökme demir disk üzerine kaplanmıştır. Kaplamanın SAE J2430 frenleme test standardına göre sürtünme katsayısı davranışına etkisi incelenmiştir. 55TiO2-Cr2O3kaplanmış ve kaplanmamış diskin mekanik ve mikro yapısal karakterizasyonu araştırılmıştır. Sıcaklık ve hızın artmasıyla birlikte, sürtünme katsayısı (COF) ve aşınma oranı azalmıştır. Kaplanmış ve kaplanmamış yüzeyler taramalı elektron mikroskobuyla (SEM), ışık mikroskobu (LM) ile incelenip enerji dispersif spektrometresi (EDS) yardımıyla analiz edilmiştir. Numunelerin yüzey pürüzlülüğü ve mikro sertlik testleri yapılmıştır. Krom ve Titanyum'ca zengin kaplamalarda yük ve sıcaklığın artmasıyla Cr, Ti yağlayıcı film olarak görev yaptığından kaplamanın sürtünme katsayısı ve aşınma oranı kaplamasız diskten düşük çıkmıştır. Kaplamalı diskin daha düşük aşınması, titanyum ve krom oksitlerin oluşturduğu yüzey filminin sert yapısına ve yağlayıcılık özelliğine bağlanmıştır. Mikro yapı analizlerinden kaplamanın metalürjik olarak problemsiz olduğu tespit edilmiştir.
Kaynakça
- [1] Kennedy, Z.E., Natarajan, S., "Slurry erosion properties of detonation sprayed and plasma sprayed coatings for materials used in mining environments", Surface Engineering, 25, 476-481, 2009.
- [2] Saral, U., Toplan, N., "Thermal cycle properties of plasma sprayed YSZ/Al2O3 thermal barrier coatings", Surface Engineering, 25, 541-547, 2009.
- [3] Enayati, M.H., Fathi, M.H., Zomorodian, A., "Characterisation and corrosion properties of novel hydroxyapatite niobium plasma sprayed coating", Surface Engineering, 25, 338-342, 2009.
- [4] Wang, Y., Guo, H.B., Li, Z.Y., Gong, S.K., "Segmented lanthanum cerium oxide thermal barrier coatings by atmospheric plasma spray", Surface Engineering, 25, 555-558, 2009.
- [5] Verdian, M.M., Salehi, M., Raeissi, K., "Influence of feedstock particle size on corrosion resistance of air plasma sprayed NiTi coatings applied to AISI 1045 steel", Surface Engineering, 26, 478-483, 2010.
- [6] Jin, Y., Yang, Y., "Tribological behavior of various plasma sprayed ceramic coatings", Surface and Coatings Technology, 88, 248-54, 1996.
- [7] Wang, Y., "Friction and wear performances of detonation gun and plasma sprayed ceramic and cermet hard coatings under dry friction", Wear, 161, 69-78, 1993.
- [8] Liu, H., Tao, J., Xu, J., Chen Z., Qiang Gao, Q., "Corrosion and tribological behaviors of chromium oxide coatings prepared by the glow-discharge plasma technique", Surface and Coatings Technology, 204, 28-36, 2009.
- [9] Zhang, J., Wang, Z., Lin, P., Lu, W., Zhou, Z., Jiang, S., "Effect of Sealing Treatment on Corrosion Resistance of Plasma-Sprayed NiCrAl/Cr2O3-8wt.%TiO2 Coating", Journal of Thermal Spray Technology, 5(20), 508-513, 2011.
- [10] Güney, B.i, Mutlu, İ., "Wear and corrosion resistance of Cr2O3%-40% TiO2 coating on gray cast-iron by plasma spray technique", Materials Research Express, 6 (9), 069577, 2019.
- [11] Harju, M., Halme, J., Järn, M., Rosenholm, J.B., Mäntylä, T., "Influence of aqueous aging on surface properties of plasma sprayed oxide coatings", Journal of Colloid and Interface Science, 313, 194-201, 2007.
- [12] Merlin, M., Soffritti, C., Vazquez, R., "Effect of relative humidity and applied loads on the tribological behaviour of a steel/Cr2O3-ceramic coupling", Wear, 303, 371-80, 2013.
- [13] Pawlowski, L., "Technology of thermally sprayed anilox rolls: State of art, problems, and perspectives", Journal of Thermal Spray Technology, 5, 317-334, 1996.
- [14] Singh, V,P., Sil, A., Jayaganthan, R., "Wear of plasma sprayed conventional and nanostructured Al2O3 and Cr2O3 based coatings", Transactions of the Indian Institute of Metals, 65, 1-12, 2012.
- [15] Zhang, J., Wang, Z., Lin, P., "Effects of sealing on corrosion behaviour of plasma-sprayed Cr2O3–8TiO2 coating", Surface Engineering, 29(8), 594-99, 2013.
- [16] Ramachandran, K., Selvarajan, V., Ananthapadmanabhan, P.V., Sreekumar, K.P., "Microstructure adhesion, microhardness, abrasive wear resistance and electrical resistivity of the plasma sprayed alumina and alumina-titania coatings", Thin Solid Films, 315, 144-152, 1998.
- [17] Yılmaz, R., Kurt, A.O., Demir, A., Tatli, Z., "Effects of TiO2 on the mechanical properties of the Al2O3-TiO2 plasma sprayed coating", Journal of the European Ceramic Society, 27, 1319-1323, 2007.
- [18] Fervel, V., Normand, B., Coddet, C., "Tribological behavior of plasma sprayed Al2O3 based cermet coatings", Wear, 230, 70-77, 1999.
- [19] Çetinel, H., Çelik, E., Kusoğlu, M.I., "Tribological behavior of Cr2O3 coatings as bearing materials", Journal of Materials Processing Technology, 196, 259-265, 2008.
- [20] Sammelselg, A., Tarre, J., Lu, J., Aarik, A., Niilisk, T., Uustare, T., Netšipailo, I., Rammula, R., Pärna, R., Rosental, A, "Structural characterization of TiO2–Cr2O3 nanolaminates grown by atomic coating deposition", Surface and Coatings Technology, 204 (12), 2015-2018, 2010.
- [21] Ctibor, P., Píš, I., Kotlan, J., Pala, Z., Khalakhan, I., Stengl, V., Homola, P., "Microstructure and properties of plasma-sprayed mixture of Cr2O3 and TiO2", Journal of Thermal Spray Technology, 22, 1163-1169, 2013.
- [22] Negishi, N., Takeuchi, K., Preparation of TiO2 thin film photocatalysts by dip coating using a highly viscous solvent, Journal of Sol-Gel Science and Technology, 22(1–2), 23-31, 2001.
- [23] Wang, J., Wang, J.J., Sun, Y.L., Wang, C.H., "The preparation of superhydrophilic surface of TiO2 coating without ultraviolet irradiation through annealing treatment", Journal of Sol-Gel Science and Technology, 68(1),75-80, 2013.
- [24] Bergamonti, L., Alfieri, I., Franzò, M., Lorenzi, A., Montenero, A., Predieri, G., Raganato, M., Calia, A., Lazzarini, L., Bersani, D., Lottici, P.P., "Synthesis and characterization of nanocrystalline TiO2 with application as photoactive coating on stones", Environmental Science and Pollution Research. 21(23), 13264-13277, 2014.
- [25] Magami, S.M., Oldring, P.K.T., Castle, L., Guthrie , J.T, "The effect of TiO2, pigmentation on the hydrolysis of amino resin crosslinked epoxy can coatings", Journal of Coatings Technology and Research, 11(6), 1013-1022, 2014.
- [26] Li, N., Li, G., Wang, H., Kang, J., Dong, T., Wang, H., "Influence of TiO2 content on the mechanical and tribological properties of Cr2O3-based coating", Materials and Design, 88,906-914, 2015.
- [27] Bolelli, G., Cannillo, V., Lusvarghi, L., Manfredini, T., "Wear behaviour of thermally sprayed ceramic oxide coatings", Wear, 261, 1298-1315, 2006.
- [28] Ahn, H., Kwon, O.K., "Tribological behaviour of plasma-sprayed chromium oxide coating", Wear, 225-229, 814-824, 1999.
- [29] Bagde, P., Sapate, S.G., Khatirkar, R.K., Vashishtha, N., Tailor, S., "Friction and wear behaviour of plasma sprayed Cr2O3-TiO2 coating", Materials Research. Express, 5, 1-14, 2018.
- [30] Güney, B., Mutlu, İ., "Tribological properties of brake discs coated Cr2O3-40%TiO2 by plasma spraying", Surface Review And Lettres, 26 (10) , 1950075, 2019.
- [31] Mutlu, İ., Güney, B., Erkurt, İ., "Investigation of the effect of Cr2O3-2TiO2 coating on braking performance", International Journal of Automotive Engineering and Technologies, 9 (1), 29-41, 2020.
- [32] Güney, B., Mutlu, İ., Gayretli, A., "Investigation of braking performance of NiCrBSi coated brake discs by thermal spraying and melting", Journal of The Balkan Tribological Association, 22 (1), 331-346, 2016.
- [33] Güney, B., Mutlu, İ., Küçüksarıyıldız, H., "The effect of flame spray coating on the tribological properties of brake disc", Politeknik Dergisi, 2020. https://doi.org/10.2339/politeknik.563277.
- [34] Güney, B., Mutlu, İ., "Dry friction behavior of NiCrBSi-%35W2C coated brake disks", Materials Testing, 59 (5), 497-505, 2017.
- [35] Blau, P.J., Mc-Laughlin, J.C., "Effects of water films and sliding speed on the frictional behavior of truck disc brake material", Tribology in Industries, 36 (10), 709-715, 2003.
- [36] Anderson, A.E., "Friction and wear automotive brakes", ASM Handbook, Friction, Lubrication, and Wear Technology, ASM International, Materials Park, Ohio, 18 2017.
- [37] Wu, Y., Ma, Y., Gao, W., Yang, G., Fu, H., Xi, N., Chen, H., "High temperature wear performance of laser cladding Co06 coating on high-speed train brake disc", Applied Surface Science, 481, 761-766, 2019.
- [38] Kılıç, H., Mısırlı, C., "Investigation of tribological behavior of 20NiCrBSi-WC12Co coated brake disc by HVOF method", Materials Research Express, 7 (1), 016560, 2020.
- [39] https://www.oerlikon.com/metco/en/meta-navigation/search-result/?q=MaterialGuide, (Erişim: 22 Mayıs 2019).
- [40] Hirota, K., Takano, Y., Yoshinaka, M., Yamaguchi, O., "Fabrication and mechanical properties of almost fully-densified Cr2O3 ceramics", Journal of Materials Science Letters, 21(11), 853-854, 2002.
- [41] Du, H.L., Datta, P.K., Burnell-Gray, J.S., Guo, X., "Influence of plasma-sprayed Mo coating on sulphidation behaviour of inconel 600 and nimonic PE11 alloys", Surface and Coatings Technology, (76-77), 1-6, 1995.
- [42] Hieman, R.B., Plasma spray coating-principles and applications, VCH publishers Inc., NY, USA. 1996.
- [43] Çelik, E., Şengil, İ.A., Avcı, E., "Effect of some parameters on corrosion behaviour of plasma-sprayed coatings", Surface and Coatings Technology, 97, 355-360, 1997.
- [44] Anonim, SAE J2430, "Dynamometer effectiveness characterization test forpassenger car andlight truck brake friction products. surface vehicle standard", Society of Automotive Engineers, Pensilvanya, USA, 1999.
- [45] Anonim, "How to read and understand the aftermarket standard sae J2430/brake effectiveness evaluation procedure-Test report", Detroit, Michigan, Link Testing, 1999.
- [46] Carlos, E.A., Ferro, E., "Technical overview of brake performance testing for original equipment and aftermarket industries in the US and europe an markets", Link Technical Report FEV 2005-01. 2005.
- [47] Miguel, J.M., Guilemany, J.M., Vizcaino, S., "Tribological study of NiCrBSi coating obtained by different processes", Tribology International, 36 (3), 181-1 87, 2003.
- [48] Vaclav, R., Helena, R., Dagmer, J., Peter, F., "Wear and environmental aspects of composite materials for automotive braking industry", Wear, 265, 167-175, 2005.
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