1. In-Situ Response of WC-Ni Composites under Compressive Load
- Author
-
Mark A.M. Bourke, A.D. Krawitz, J.W. Paggett, E.F. Drake, Donald W. Brown, and Bjørn Clausen
- Subjects
Toughness ,Structural material ,Materials science ,Mechanics of Materials ,Residual stress ,Neutron diffraction ,Stress–strain curve ,Metals and Alloys ,Plasticity ,Composite material ,Condensed Matter Physics ,Microstructure ,Anisotropy - Abstract
The in-situ strain response of WC-Ni cemented carbides (5, 10, and 20 wt pct Ni) to uniaxial compressive load was measured using neutron diffraction. Strain was measured in both phases parallel and transverse to the loading axis of cylindrical samples. Plasticity is observed in the Ni binder from the lowest levels of applied load. The plasticity occurs locally in the Ni phase, on the scale of the microstructure, and leads to continuous curvature of the WC-Ni stress-strain curves and significant toughness of the material. The plasticity results from the interaction of the thermal residual microstresses created during sample production with the applied macrostress. It also leads to anisotropic relaxation of the initial residual stress and the creation of a residual stress state with cylindrical symmetry in the material. This process was observed over three load-unload cycles. Analysis enables phase-specific stress strain curves to be constructed. Finally, strain distributions were observed through peak breadth responses.
- Published
- 2007
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