Startseite Effect of TiBAl inoculation on abrasive wear resistance of high Cr white cast iron
Artikel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Effect of TiBAl inoculation on abrasive wear resistance of high Cr white cast iron

  • Tanju Teker , S. Osman Yilmaz und Erhan Kerkut
Veröffentlicht/Copyright: 8. Juli 2019
Veröffentlichen auch Sie bei De Gruyter Brill
Manuskript einreichen Informationen für Autor*innen
Materials Testing
Aus der Zeitschrift Materials Testing Band 61 Heft 7

Abstract

High chromium white cast iron (HCrWCI) is generally used in applications requiring superior wear resistance. The alloys were inoculated with 1–3 wt.-% TiBAl to rearrange the crystallography of the carbides. The alloys were subject toheat treatment at 1000 °C for 1 and 2 h. The microstructuresof the alloys was examined by SEM. Chemical composition was determined by EDS. For wear tests, alloys were tested using 10, 20 and 30 N loads under pin-on-disc wear conditions. Worn surfaces of the alloys were analyzed by SEM. The worst wear resistance was obtained in the alloy inoculated with 3 wt.-%. TiBAl.

Correspondence Address, Assoc. Prof. Dr. Tanju Teker, Department of Metallurgical and Materials Engineering, Faculty of Engineering, University of Adıyaman 02040 Adıyaman, Turkey, E-mail:

Assoc. Prof. Dr. Tanju Teker, born in 1971, is Associate Professor in the Metallurgy and Materials Engineering Department, Engineering Faculty, Adiyaman University, Adiyaman, Turkey. He graduated in Metallurgy Education at Gazi University, Ankara, Turkey, in 1997. He received his MSc and PhD from Firat University, Elazig, Turkey in 2004 and 2010, respectively. He studied metal coating techniques, fusion welding methods, solid state welding methods and materials.

Prof. Dr. S. Osman Yilmaz, born in 1966, is Professor at the University of Namık Kemal, Çorlu, Tekirdağ in Turkey. He received his BSc from the University of METU, Faculty of Engineering, Metallurgy and Materials Engineering Department in 1989, his MSc from the Institute of Science and Technology, Metallurgy Department in 1992 and his Ph.D from the University of Firat, Institute of Science and Technology, Metallurgy Department, Elazig in 1998. He studied metal coating techniques, surface modification, welding, casting, wear.

Erhan Kerkut, born in 1980, graduated from Fırat University, Faculty of Engineering, Metallurgy and Materials Engineeering Department, Elazığ, Turkey in 2004. He received his MSc also also from that university in 2008. Currently, he is enrolled in a PhD program at Firat University in Elazığ and also working as an engineer in casting manufacturing in Gebze, Turkey. His field of research is surface modification, casting, wear.

References

1 C. K.Kim, S.Lee, J. Y.Jung: Effects of heat treatment on wear resistance and fracture toughness of duo-cast materials composed of high-chromium white cast iron and low-chromium steel, Metallurgical and Materials Transactions A37 (2006), No. 3, pp. 63364310.1007/s11661-006-0035-9Suche in Google Scholar

2 H. N.Han, C. S.Oh, D. W.Suh, C. G.Lee, T. H.Lee, S. J.Kim: Analysis of transformation plasticity during bainitic transformation under externally appliedstress, Metals and Materials International10 (2004), No. 3, pp. 22122910.1007/BF01117388Suche in Google Scholar

3 K. H.Zum Gahr, D. V.Doane: Optimizing fracture toughness and abrasion resistance in white cast irons, Metallurgical Transactions A11 (1980), No. 4, pp. 61362010.1007/BF02670698Suche in Google Scholar

4 R.Reda, A. A.Nofal, K. M.Ibrahim, A-H. A.Hussien: Microstructure – wear performance relationship of hypoeutectic 15 %Cr-2 %Mo White iron, International Journal of Materials Research103 (2012), No. 7, pp. 83848610.3139/146.110704Suche in Google Scholar

5 K. M.Ibrahim, A. A.Nofal: Effect of titanium addition on structure and properties of the as-cast high Cr–Mo white iron, International Journal of Materials Research103 (2012), No. 3, pp. 36237010.3139/146.110643Suche in Google Scholar

6 K. S.Al-Rubaie, O.Preti, M.Pohl: On the abrasion of heat-treated 2.8C21Cr1Mo white cast iron, International Journal of Materials Research107 (2016), No. 9, pp. 81582310.3139/146.111408Suche in Google Scholar

7 C. P.Tabrett, I. R.Sare, M. R.Ghomashchi: Microstructure-property relationships in high-chromium white iron alloys, International Journal Materials Reviews, 41 (1996), No. 2, pp. 598210.1179/imr.1996.41.2.59Suche in Google Scholar

8 S.Imurai, C.Thanachayanont, J. T. H.Pearce, K.Tsuda, T.Chairuangsri: Effects of Mo on microstructure of as-cast 28 wt.-% Cr-2.6 wt.-% C-(0-10) wt.-% Mo irons, Materials Characterization90 (2014), pp. 9911210.1016/j.matchar.2014.01.014Suche in Google Scholar

9 C.Scandian, C.Boher, J. D. B.de Mello, F.Rézaï-Aria: Effect of molybdenum and chromium contents in sliding wear of high-chromium white cast iron: The relationship between microstructure and wear, Wear267 (2009), No. 1-4, pp. 40140810.1016/j.wear.2008.12.095Suche in Google Scholar

10 J. J.Penagos, J. I.Pereira, P. C.Machado, E.Albertin, A.Sinatora: Synergetic effect of niobium and molybdenum on abrasion resistance of high chromium cast irons, Wear376 (2017), pp. 98399210.1016/j.wear.2017.01.103Suche in Google Scholar

11 V.Efremenko, K.Shimizu, Y.Chabak: Effect of destabilizing heat treatment on solid state phase transformation in high-chromium cast irons, Metallurgical Materials Transactions A44 (2013), No. 12, pp. 5434544610.1007/s11661-013-1890-9Suche in Google Scholar

12 V. G.Efremenko, Y. G.Chabak, M. N.Brykov: Kinetic parameters of secondary carbide precipitation in High-Cr white iron alloyed by Mn-Ni-Mo-V complex, Journal of Materials Engineering Performance22 (2013), No. 5, pp. 1378138510.1007/s11665-012-0434-6Suche in Google Scholar

13 A. E.Karantzalis, A.Lekatou, H.Mavros: Microstructural modifications of as-cast high-chromium white iron by heat treatment, Journal of Materials Engineering Performance18 (2009), No. 2, pp. 17418110.1007/s11665-008-9285-6Suche in Google Scholar

14 J.Wang, C.Li, H.Liu, H.Yang, B.Shen, S.Gao, S.Huang: The precipitation and transformation of secondary carbides in a high chromium cast iron, Materials Characterization56 (2006), No. 1, pp. 737810.1016/j.matchar.2005.10.002Suche in Google Scholar

15 M. X.Zhang, P. M.Kelly, J. D.Gates: The effect of heat treatment on the toughness hardness and microstructure of low carbon white cast ırons, Journal of Materials Science36 (2001), No. 16, pp. 3865387510.1023/A:1017949600733Suche in Google Scholar

16 A.Ziadi, F. J.Belzunce, C.Rodriguez: The effects of heat treatment on the Mechanical properties of multicomponent white cast irons, Journal of Materials Science42 (2007), No. 17, pp. 7579758510.1007/s10853-006-1448-ySuche in Google Scholar

17 I.Chakrabarty: Effect of copper on the corrosion resistance behaviour of as cast and destabilized Cr-Mn white cast irons, International Journal of Metal Casting5 (2011), No. 1, pp. 495610.1007/BF03355507Suche in Google Scholar

18 S.Inthidech, P.Sricharoenchai, Y.Matsubara: Effect of sub-critical heat treat parameters on hardness and retained austenite in Mo-containing high chromium cast irons, International Journal of Metalcasting6 (2012), No. 4, pp. 253410.1007/BF03355536Suche in Google Scholar

19 A.Hadji, K.Bouhamla, H.Maouche: Improving wear properties of high chromium cast iron by manganese alloying, International Journal of Metalcasting10 (2016), No. 1, pp. 435510.1007/s40962-015-0003-5Suche in Google Scholar

20 A.Bedolla-Jacuinde, B.Hernández, L.Béjar-Gómez: SEM study on the M7C3 carbide nucleation during eutectic solidification of high-chromium white irons. Zeitschrift für Metallkunde96 (2005), No. 12, pp. 1380138510.3139/146.101188Suche in Google Scholar

21 S. O.yilmaz, T.Teker: Effect of TiBAl inoculation and heat treatment on microstructure and mechanical properties of hypereutectic high chromium white cast iron, Journal of Alloys and Compounds672 (2016), pp. 32433110.1016/j.jallcom.2016.02.125Suche in Google Scholar

22 X. H.Tang, R.Chung, C. J.Pang, D. Y.Li, B.Hinckley, K.Dolman: Microstructure of high (45 wt.-%) chromium cast irons and their resistances to wear and corrosion, Wear271 (2011), No. 9-10, pp. 1426143110.1016/j.wear.2010.11.047Suche in Google Scholar

23 S. G.Sapate, A. V.Rama Rao: Effect of carbide volume fraction on erosive wear behaviour of hardfacing cast irons, Wear256 (2004), No.7-8, pp. 77478610.1016/S0043-1648(03)00527-1Suche in Google Scholar

24 S. G.Sapate, A. V.Rama Rao: Erosive wear behaviour of weld hardfacing high chromium cast irons: Effect of erodent particles, Tribology International39 (2006), No. 3, pp. 20621210.1016/j.triboint.2004.10.013Suche in Google Scholar

25 A. B.Jacuinde, M.Rainforth: The wear behaviour of high-chromium white cast irons as a function of silicon and Mischmetal content, Wear250 (2001), No. 1-12, pp. 44946110.1016/S0043-1648(01)00633-0Suche in Google Scholar

26 X.Zhi, J.Xing, Y.Gao: Effect of heat treatment on microstructure and mechanical properties of a Ti-bearing hypereutectic high chromium white cast iron, Materials Science Engineering A487 (2008), No. 1-2, pp. 17117910.1016/j.msea.2007.10.009Suche in Google Scholar

27 X.Wu, J.Xing, H.Fu, X.Zhi: Effect of titanium on the morphology of primary M7C3 carbides in hypereutectic high chromium white iron, Materials Science Engineering A457 (2007), No. 1-2, pp. 18018510.1016/j.msea.2006.12.006Suche in Google Scholar

28 X.Zhi, J.Xing, H.Fu, B.Xiao: Effect of niobium on the as-cast microstructure of hypereutectic high chromium cast iron, Materials Letters62 (2008), No. 6-7, pp. 85786010.1016/j.matlet.2007.06.084.Suche in Google Scholar

29 L.Lu, H.Soda, A.McLean: Microstructure and mechanical properties of Fe-Cr-C eutectic composites, Materials Science Engineering A347 (2003), No. 1-2, pp. 21422210.1016/S0921-5093(02)00588-9Suche in Google Scholar

30 E.Albertin, A.Sinatora: Effect of carbide fraction and matrix microstructure on the wear of cast iron balls tested in a laboratory ball mill, Wear250 (2001), No. 1-12, pp. 49250110.1016/S0043-1648(01)00664-0Suche in Google Scholar

Published Online: 2019-07-08
Published in Print: 2019-07-04

© 2019, Carl Hanser Verlag, München

Artikel in diesem Heft

  1. Inhalt/Contents
  2. 10.3139/120.019061
  3. Fachbeiträge/Technical Contributions
  4. Effect of rhenium and cobalt additions on the microstructure and gamma prime phase stability of vacuum arc melted modified nickel-based superalloys grade MGA 1400
  5. Residual strength of fire-exposed glass-reinforced epoxy composite pipes
  6. Impact attenuator conceptual design using lightweight materials and meta-modeling technique
  7. Microstructure and properties of high strength Al-Fe-Cu-Si-Zn alloy (AA8079) produced by mechanical alloying and powder metallurgy
  8. Determination of the static, dynamic and cyclic properties of the heat affected zone for different steel grades
  9. Friction stir welded and deep drawn multi-material tailor welded blanks
  10. Effects of cut-outs on the vibrational characteristics of a hollow shaft system
  11. Effect of heat treatment on wear and corrosion behavior of high chromium white cast iron
  12. Effect of nanoparticle reinforcement on mechanical properties and erosion–corrosion behavior of cast aluminum
  13. Effect of different grain sizes on the static strain aging behavior of bake hardening steel
  14. Effect of fillers on vinylester matrix composites
  15. Impact of oxygen doping on AC impedance, complex dielectric and electrical modulus spectra of a Hg-Ba-Ca-Cu-O ceramic
  16. Effect of TiBAl inoculation on abrasive wear resistance of high Cr white cast iron
  17. Stress shielding reduction via graded porosity of a femoral stem implant
https://doi.org/10.3139/120.111373

Artikel in diesem Heft

  1. Inhalt/Contents
  2. 10.3139/120.019061
  3. Fachbeiträge/Technical Contributions
  4. Effect of rhenium and cobalt additions on the microstructure and gamma prime phase stability of vacuum arc melted modified nickel-based superalloys grade MGA 1400
  5. Residual strength of fire-exposed glass-reinforced epoxy composite pipes
  6. Impact attenuator conceptual design using lightweight materials and meta-modeling technique
  7. Microstructure and properties of high strength Al-Fe-Cu-Si-Zn alloy (AA8079) produced by mechanical alloying and powder metallurgy
  8. Determination of the static, dynamic and cyclic properties of the heat affected zone for different steel grades
  9. Friction stir welded and deep drawn multi-material tailor welded blanks
  10. Effects of cut-outs on the vibrational characteristics of a hollow shaft system
  11. Effect of heat treatment on wear and corrosion behavior of high chromium white cast iron
  12. Effect of nanoparticle reinforcement on mechanical properties and erosion–corrosion behavior of cast aluminum
  13. Effect of different grain sizes on the static strain aging behavior of bake hardening steel
  14. Effect of fillers on vinylester matrix composites
  15. Impact of oxygen doping on AC impedance, complex dielectric and electrical modulus spectra of a Hg-Ba-Ca-Cu-O ceramic
  16. Effect of TiBAl inoculation on abrasive wear resistance of high Cr white cast iron
  17. Stress shielding reduction via graded porosity of a femoral stem implant
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 9.10.2025 von https://www.degruyterbrill.com/document/doi/10.3139/120.111373/html
Button zum nach oben scrollen