Comparison of abrasion resistance of selected constructional materials

• Autorzy: Adamiak M. , Górka J. , Kik T.
• Języki publikacji: EN

Abstrakty

EN

Purpose: The aim of this work was to define and compare abrasion resistance of selected constructional materials widely used in the industry. Chromium cast iron wear resistant plates were compared with typically used wear resistant plates made from Hardox 400 steel and two different, wear resistant, materials cladded by welding technologies. Design/methodology/approach: The tests of abrasive wear were conducted in accordance to procedure “A” of standard ASTM G 65 - Standard Test Method for Measuring Abrasion Using the Dry Sand/Rubber Wheel Apparatus. Findings: Abrasion resistance tests shows that the best properties among investigated samples has chromium cast iron plate. Abrasion wear resistance of this plate is two times higher than wear resistance of layer made by welding technologies and nine times higher than typical Hardox 400 steel plate. Practical implications: Application, of abrasion resistant materials, results in significant material and economy savings, due to wear and costs reduction (decreasing stop times needed to change worn parts for a new one). Originality/value: Wear plates are modern solution in regeneration of worn machines parts and also for producing a new parts which connect high wear and abrasion resistance with costs reduction.

Słowa kluczowe

EN

wear plates; abrasion resistance; cladding; welding technology

PL

tarcze ścierne; odporność na ścieranie; napawanie; spawalnictwo

• Wydawca: International OCSCO World Press
• Czasopismo: Journal of Achievements in Materials and Manufacturing Engineering
• Rocznik: 2009
• Tom: Vol. 37, nr 2
• Strony: 375--380
• Opis fizyczny: Bibliogr. 16 poz., rys., tabl.

Twórcy

autor

Adamiak M.

autor

Górka J.

autor

Kik T.

• Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland,

Bibliografia

• [1] K. Kato, Abrasive wear of metals, Tribology International 5 (1997) 333-338.
• [2] G. W. Stachowiak, Particle angularity and its relationship to abrasive and erosive wear, Wear 241 (2000) 214-219.
• [3] K. Grigoroudis, D. J. Stephenson, Modelling low stress abrasive wear, Wear 213 (1997) 103-111.
• [4] K. H. Zum Gahr: Wear by hard particles. Tribology International 10 (1998) 587-596.
• [5] G. Sundararajan, R. Manisz, Solod Particle Erosion Behaviour of Metallic Materials at Room and Elevated Temperatures. Tribology International 30/5 (1997) 339-359.
• [6] E. Zdravecka, M. Tomas, J. Suchanek, The surface characteristics in tribological system of coatings obtained by HVOF methods, Proceedings of the International Conference, Modern wear and corrosion resistant coatings obtained by thermal spraying, 2003, Warsaw, Poland.
• [7] W. Gawrysiuk, Abrasion-resisting sheets. Manufacturing technologies and exploitative advantages. Proceedings of Seminary of Welding Institute in Gliwice (in Polish).
• [8] G. B. Stachowiak, G. W. Stachowiak, The effects of particle characteristics on three-body abrasive wear, Wear 249(2001) 201-207.
• [9] T. Burakowski, T. Wierzchom, Surface engineering of metals, WNT, Warsaw, 1995.
• [10] X. Ma, R. Liu, D. Y Li, Abrasive wear behavior of D2 tool steel with respect to load and sliding speed under dry sand/rubber wheel abrasion condition, Wear 1(2000) 79-85.
• [11] M. A. Masen, M. B. De Rooij, D. J. Schipper, Micro-contact based modeling of abrasive, Wear 241 (2005) 75-89.
• [12] J. G. Mbabazi, T. J. Sheer, R. Schandu, A model predict erosion on mild steel surfaces impacted by boiler fly ash particles, Wear 257 (2005) 612-624.
• [13] X. Escaler, M. Farhat, F. Avellan, E. Egusquiza, Cavitations erosion tests on a 2D hydrofoil using surface-mounted obstacles 5 (2002) 441-449.
• [14] V. Burlov, I. Parputs, Types and peculiarities of the corrosion damage to metal equipment of primary oil processing plants, Protection of Metals 1 (2005) 99-103.
• [15] P. Adamiec, W. Gawrysiuk, Properties of pad welded layers with chromium cast iron structure, Welding rewiev, Gliwice, 2, 2004 (in Polish).
• [16] Advertising materials of Canadian Wear Technologies Ltd.