Mechanical Properties of Hard W-C Coating on Steel Substrate Deduced from Nanoindentation and Finite Element Modeling |
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Authors: | T Csanádi D Németh F Lofaj |
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Institution: | 1.Institute of Materials Research of the Slovak Academy of Sciences,Ko?ice,Slovak Republic |
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Abstract: | Mechanical properties of a hard and stiff W-C coating on steel substrate have been investigated using nanoindentation combined with finite element modeling (FEM) and extended FEM (XFEM). The significant pile-up observed around the indents in steel substrate caused an overestimation of hardness and indentation modulus. A simple geometrical model, considering the additional contact surfaces due to pile-up, has been proposed to reduce this overestimation. The presence of W-C coating suppressed the pile-up in the steel substrate and a transition to sink-in behavior occurred. The FEM simulations adequately reproduced the surface topography of the indents in the substrate and coating/substrate systems as well. The maximum principal stresses of the indented W-C/steel coated system were tensile; they were always located in the coating and evolved in 3 stages. Cohesive cracking occurred during loading in the sink-in zone (stage III) when the ultimate tensile strength (σ max ) of the coating was reached. The obtained hardness (H c ), indentation modulus (E c ), yield stress (Y) and strength (σ max ) of the W-C coating were H c ? =?20 GPa, E c ? =?250 GPa, Y?=?9.0 GPa and σ max ? =?9.35 GPa, respectively. XFEM resulted in fracture energy of the W-C coating of G?=?38.1 J?·?m-2 and fracture toughness of K IC ? =?3.5 MPa?·?m0.5. |
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