Mechanical and fatigue properties of plasma sprayed (Fe0.9Co0.1)76Mo4(P0.45C0.2B0.2Si0.15)20 and Fe56.04Co13.45Nb5.5B25 metallic glasses

Małachowska, A.; Kovarik, O.; Sajbura, A.; Sokolowski, P.; Lindner, T.; Scholze, M.; Karlík, M.and Čech  J.; Lampke, T.

doi:10.1016/j.surfcoat.2023.129361

Mechanical and fatigue properties of plasma sprayed (Fe_0.9Co0.1)₇₆Mo₄(P_0.45C_0.2B_0.2Si_0.15)₂₀ and Fe_56.04Co_13.45Nb_5.5B₂₅ metallic glasses (bibtex)

by A. Małachowska, O. Kovarik, A. Sajbura, P. Sokolowski, T. Lindner, M. Scholze, M.and Čech J. Karlík, T. Lampke

Abstract:

Metallic glasses (MG) are unique materials with a continuous and homogeneous structure. Thermally sprayed deposits are characterized by a nonuniform microstructure, with numerous interparticle and intersplat interfaces. This paper addresses the difference between conventionally manufactured and thermally sprayed MG's by microstructural characterization of the MG coatings (MGC) and their mechanical testing using the unified bending methodology. Two thick coatings of (Fe_0.9Co_0.1)₇₆Mo₄(P_0.45C_0.2B_0.2Si_0.15)₂₀, and Fe_56.04Co_13.45Nb_5.5B₂₅ were prepared on steel substrates with atmospheric plasma spraying (APS) using gas atomized powders. The relative glassy phase content of 92 % was obtained for (Fe_0.9Co_0.1)₇₆Mo₄(P_0.45C_0.2B_0.2Si_0.15)₂₀ coating and 53 % for Fe_56.04Co_13.45Nb_5.5B₂₅ coating. The strain-stress curves for both coatings show brittle behavior without any plasticity. The tensile strength was 142 ± 27 MPa for Fe_56.04Co_13.45Nb_5.5B₂₅, and 152 ± 36 MPa for (Fe_0.9Co_0.1)₇₆Mo₄(P_0.45C_0.2B_0.2Si_0.15)₂₀. In the comparison of both MGCs, the Fe_56.04Co_13.45Nb_5.5B₂₅ coating has a higher crack growth resistance (significantly in fatigue, less significantly in the fracture toughness test). The obtained fracture toughness is much higher than usually reported in the literature for Fe-based metallic glasses.

Reference:

Małachowska, A., Kovarik, O., Sajbura, A., Sokolowski, P., Lindner, T., Scholze, M., Karlík, M.and Čech, J., Lampke, T.: Mechanical and fatigue properties of plasma sprayed (Fe0.9Co0.1)76Mo4(P0.45C0.2B0.2Si0.15)20 and Fe56.04Co13.45Nb5.5B25 metallic glasses, Surface and Coatings Technology 459, 129361, 2023.

Bibtex Entry:

@Article{Malachowska_2023a,
  author    = {Ma{\l}achowska, A. and Kovarik, O. and Sajbura, A. and Sokolowski, P. and Lindner, T. and Scholze, M. and Karl{\'{\i}}k, M.and {\v{C}}ech, J. and Lampke, T.},
  journal   = {Surface and Coatings Technology},
  title     = {Mechanical and fatigue properties of plasma sprayed (Fe\textsubscript{0.9Co0.1})\textsubscript{76}Mo\textsubscript{4}(P\textsubscript{0.45}C\textsubscript{0.2}B\textsubscript{0.2}Si\textsubscript{0.15})\textsubscript{20} and Fe\textsubscript{56.04}Co\textsubscript{13.45}Nb\textsubscript{5.5}B\textsubscript{25} metallic glasses},
  year      = {2023},
  month     = apr,
  pages     = {129361},
  volume    = {459},
  abstract  = {Metallic glasses (MG) are unique materials with a continuous and homogeneous structure. Thermally sprayed deposits are characterized by a nonuniform microstructure, with numerous interparticle and intersplat interfaces. This paper addresses the difference between conventionally manufactured and thermally sprayed MG's by microstructural characterization of the MG coatings (MGC) and their mechanical testing using the unified bending methodology. Two thick coatings of (Fe\textsubscript{0.9}Co\textsubscript{0.1})\textsubscript{76}Mo\textsubscript{4}(P\textsubscript{0.45}C\textsubscript{0.2}B\textsubscript{0.2}Si\textsubscript{0.15})\textsubscript{20}, and Fe\textsubscript{56.04}Co\textsubscript{13.45}Nb\textsubscript{5.5}B\textsubscript{25} were prepared on steel substrates with atmospheric plasma spraying (APS) using gas atomized powders. The relative glassy phase content of 92 % was obtained for (Fe\textsubscript{0.9}Co\textsubscript{0.1})\textsubscript{76}Mo\textsubscript{4}(P\textsubscript{0.45}C\textsubscript{0.2}B\textsubscript{0.2}Si\textsubscript{0.15})\textsubscript{20} coating and 53 % for Fe\textsubscript{56.04}Co\textsubscript{13.45}Nb\textsubscript{5.5}B\textsubscript{25} coating. The strain-stress curves for both coatings show brittle behavior without any plasticity. The tensile strength was 142 ± 27 MPa for Fe\textsubscript{56.04}Co\textsubscript{13.45}Nb\textsubscript{5.5}B\textsubscript{25}, and 152 ± 36 MPa for (Fe\textsubscript{0.9}Co\textsubscript{0.1})\textsubscript{76}Mo\textsubscript{4}(P\textsubscript{0.45}C\textsubscript{0.2}B\textsubscript{0.2}Si\textsubscript{0.15})\textsubscript{20}. In the comparison of both MGCs, the Fe\textsubscript{56.04}Co\textsubscript{13.45}Nb\textsubscript{5.5}B\textsubscript{25} coating has a higher crack growth resistance (significantly in fatigue, less significantly in the fracture toughness test). The obtained fracture toughness is much higher than usually reported in the literature for Fe-based metallic glasses.},
  doi       = {10.1016/j.surfcoat.2023.129361},
  publisher = {Elsevier {BV}},
}

Mechanical and fatigue properties of plasma sprayed (Fe0.9Co0.1)76Mo4(P0.45C0.2B0.2Si0.15)20 and Fe56.04Co13.45Nb5.5B25 metallic glasses (bibtex)

by A. Małachowska, O. Kovarik, A. Sajbura, P. Sokolowski, T. Lindner, M. Scholze, M.and Čech J. Karlík, T. Lampke

Mechanical and fatigue properties of plasma sprayed (Fe_0.9Co0.1)₇₆Mo₄(P_0.45C_0.2B_0.2Si_0.15)₂₀ and Fe_56.04Co_13.45Nb_5.5B₂₅ metallic glasses (bibtex)