Restoration of Agricultural Machines Surfaces by White Cast Iron with the Formation of Technological Repair Units


Article Preview

This article develops a fundamentally new approach in the selection of optimal methods for restoring of worn surfaces of agricultural machines’ tools with the formation and application of technological repair units. Based on the systematization and linkage of modular worn-out surfaces, their operating conditions, technological environment and the choice of their optimal combinations, it found a low-cost method of restoring details with white cast iron to gain a necessary quality of a new surface layer.



Edited by:

Dr. Dmitry A. Chinakhov




V.K. Afanasyev et al., "Restoration of Agricultural Machines Surfaces by White Cast Iron with the Formation of Technological Repair Units", Materials Science Forum, Vol. 927, pp. 43-47, 2018

Online since:

July 2018




[1] Correa, E. O., Alcantara, N. G., Valeriano, L. C. and other, The effect of microstructure on abrasive wear of a Fe-Cr-C-Nb hardfacing alloy deposited by the open arc welding process, Surface & Coatings Technology, Tome: 276, P.: 479-484.


[2] Gouveia, Ronny M., Silva, Francisco J. G., Paiva, Olga C. and other, Study of the Heat-Treatments Effect on High Strength Ductile Cast Iron Welded Joints, Metals, Tome: 7 (9) Number of article: 382.


[3] Gucwa, M., Beczkowski, R., Winczek, J. and other, The Effect of Type of Welding Sequence During Hardfacing Chromium Cast Iron for Erosion Resistance, Archives of foundry engineering Tome: 17 (3) P.: 51-54.


[4] Lisiecki, A., Effect of heat input during disk laser bead on plate welding of thermomechanically rolled on penetration characteristics and porosity formation in the weld metal, Archives of metallurgy and materials Tome: 61 (1), P.: 93-: 101.


[5] Liu, Hai-yun, Song, Zhi-liang, Cao, Qing and other, Microstructure and Properties of Fe-Cr-C Hardfacing Alloys Reinforced with TiC-NbC, Journal of iron and steel research international,Tome: 23 (3), P.: 276-280.


[6] Metallography of cast iron [Text] / [V. K. Afanasyev, S.V. Dolgova, M.V. Popova and others); under the scientific editorship of Professor V.K. Afanasyev. - St. Petersburg: Publishing house of Polytechnic University, 2016. - 481 p.

[7] Pat. 2538849 Rus. Federation, IPC B23H 1/00, B23H 9/00. Electro-sparking coating method / А.P. Chernysh, O.V. Sankina, R.N. Dubodelov, N.A. Marinov, I.N. Badin, A.S. Sankin; applicant and patent holder is the FGBOU HPE Kemerovo State Agricultural Institute, .- 2013117447/02; claimed. 04/16/2013; publ. 01/10/2015. Bul. №1, 2015 - 5 p.

[8] Pat. for utility model RU 139667 U1, MPK B23R 6/00 V25N 1/00. Technological repair module for tools in the form of a ploughshare / A.P. Chernysh (RU). - No. 2013117451/02; Declared. 04/16/2013; Publ. 20.04.2014, Bul. № 11.

[9] Shveev, I. A., Displaying structural property and inheritance of cast iron surfacing on steel base, International scientific – technical conference on innovative engineering technologies, equipment and materials 2015 (ISTC-IETEM-2015), Book series: IOP Conference Series-Materials Science and Engineering, Tome: 13, Number of article: UNSP 012037.


[10] Vdovin, K. N., Emelyushin, A. N., Nefed'ev, S. P., Features of Wear-Resistant Cast Iron Coating Formation During Plasma-Powder Surfacing, Metal science and heat treatment, Tome: 59 (5-6) P.: 302-307.


[11] Wang, Hao, Yu, Shengfu, Influence of heat treatment on microstructure and sliding wear resistance of high chromium cast iron electroslag hardfacing layer, Surface & Coatings Technology, Tome: 319 P.: 182-190.


[12] Zuk, M., Gorka, J., Dojka, R. and other, Repair welding of cast iron coated electrodes, Modtech international conference – modern technologies in industrial engineering V Book series: IOP Conference Series-Materials Science and Engineering, Tome: 227 Number of article: UNSP 012139.