The influence of positioning deposited beads direction to resistance on grind wear plates’ abrasive wear
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Published:
Jul 11, 2019
Keywords:
wear plate, hardfacing, abrasion, chromium cast iron, coatings
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Abstract
The article presents the results of the study of the significance of influence of positioning deposited beads towards direction of abrasive movement, to resistance on grind wear platesHARDPLATE 100S’ abrasive wear. The study on relevance of influence was conducted by using completely randomized design. The range of study has covered testing the metal-material abrasive wear resistance, macroscopic and microscopic metallographic examination and hardness tests.
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How to Cite
[1]
M. Szymura and M. Różański, “The influence of positioning deposited beads direction to resistance on grind wear plates’ abrasive wear”, Weld. Tech. Rev., vol. 91, no. 5, pp. 11-16, Jul. 2019.
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This work is licensed under a Creative Commons Attribution 4.0 International License.
References
Bęczkowski R., Selected issues of applying a wear-resistant plates in the mining industry. Welding Technology Review, 2017, Vol. 89(5), 80-84.
Mucha T., Bartkowiak K., Application of cladded abrasive-resistant plates in repairs of opencast mining equipment. Welding Technology Review, 2011, Vol. 83 (10), 73-76.
Neale M., Gee M., A guide to wear problems and testing for industry, William Andrew, 2001, 3-8.
Ban M., Hasegawa N., Ueno Y., Shinozaki H., Aoki T., Fukumoto H., Wear Resistance Property of Hardfacing Weld Overlays Containing Metal Carbides. Tribology Online 2012, Vol. 7(4), 207-212.
Czupryński A., Properties of Al2O3/TiO2 and ZrO2/CaO flame sprayed coatings. Spajanie Materiałów Konstrukcyjnych, 2017, Vol. 36(2), 32-39.
Czupryński A., Kik T., Melcer M., Comparison of abrasion resistance of wear plates. Welding Technology Review, 2018, Vol. 90(5), 28-36.
Klimpel A., Górka J., Czupryński A., Comparison of chromium cast iron deposits of wear plates. Journal of Achievements in Materials and Manufacturing Engineering, 2006, Vol. 18(1-2), 387-390.
Pawar S., Mukhopadhyay G., Metallurgical and Tribological Evaluation of Fe-Cr-C Hardfacing Alloys. Journal of
Failure Analysis and Prevention, 2018, Vol. 18(4), 868-876.
Turyk E., Riabcew I.A., Melcer M., Rebuilding of coils of screw conveyors with chromium cast iron hard laye.,
Welding Technology Review, 2018, Vol. 90(9), 24-27.
Varga M., High temperature abrasive wear of metallic materials. Wear, 2017, Vol. 376-377, 443-451.
Yury K., Filiрpov M., Makarov A., Malygina I., Soboleva N., Fantozzi D., Adrea M., Koivuluoto H., Vuoristo P., Arc-Sprayed Fe-Based Coatings from Cored Wires for Wear and Corrosion Protection in Power Engineering. Coatings, 2018, Vol. 8(2), 71.
Ziemliński J., Simplified technology of welding large working surfaces exposed to the destructive effect of loose materials. (in-polish) Biuletyn Instytutu Spawalnictwa, 1966, Vol. 28, 28-32.
Welding Alloys Polska Sp. z o.o., Pad welded wear plates, WA, 2018.
Kukiełka L., Basics of engineering research. PWN, 2002, 40-42, 248.
https://www.random.org/sequences/?min=1&max=30&col=1&format=html&rnd=new (30.01.2019)
Mucha T., Bartkowiak K., Application of cladded abrasive-resistant plates in repairs of opencast mining equipment. Welding Technology Review, 2011, Vol. 83 (10), 73-76.
Neale M., Gee M., A guide to wear problems and testing for industry, William Andrew, 2001, 3-8.
Ban M., Hasegawa N., Ueno Y., Shinozaki H., Aoki T., Fukumoto H., Wear Resistance Property of Hardfacing Weld Overlays Containing Metal Carbides. Tribology Online 2012, Vol. 7(4), 207-212.
Czupryński A., Properties of Al2O3/TiO2 and ZrO2/CaO flame sprayed coatings. Spajanie Materiałów Konstrukcyjnych, 2017, Vol. 36(2), 32-39.
Czupryński A., Kik T., Melcer M., Comparison of abrasion resistance of wear plates. Welding Technology Review, 2018, Vol. 90(5), 28-36.
Klimpel A., Górka J., Czupryński A., Comparison of chromium cast iron deposits of wear plates. Journal of Achievements in Materials and Manufacturing Engineering, 2006, Vol. 18(1-2), 387-390.
Pawar S., Mukhopadhyay G., Metallurgical and Tribological Evaluation of Fe-Cr-C Hardfacing Alloys. Journal of
Failure Analysis and Prevention, 2018, Vol. 18(4), 868-876.
Turyk E., Riabcew I.A., Melcer M., Rebuilding of coils of screw conveyors with chromium cast iron hard laye.,
Welding Technology Review, 2018, Vol. 90(9), 24-27.
Varga M., High temperature abrasive wear of metallic materials. Wear, 2017, Vol. 376-377, 443-451.
Yury K., Filiрpov M., Makarov A., Malygina I., Soboleva N., Fantozzi D., Adrea M., Koivuluoto H., Vuoristo P., Arc-Sprayed Fe-Based Coatings from Cored Wires for Wear and Corrosion Protection in Power Engineering. Coatings, 2018, Vol. 8(2), 71.
Ziemliński J., Simplified technology of welding large working surfaces exposed to the destructive effect of loose materials. (in-polish) Biuletyn Instytutu Spawalnictwa, 1966, Vol. 28, 28-32.
Welding Alloys Polska Sp. z o.o., Pad welded wear plates, WA, 2018.
Kukiełka L., Basics of engineering research. PWN, 2002, 40-42, 248.
https://www.random.org/sequences/?min=1&max=30&col=1&format=html&rnd=new (30.01.2019)